HIV Vaccine Regimen Does Not Show Efficacy in the HVTN 702 Trial in South Africa

On Monday February 3rd it was announced that HVTN 702, a large-scale HIV vaccine efficacy trial taking place in South Africa, had found no evidence of protection against HIV acquisition. The information emerged from a pre-planned review of interim results conducted by the trial’s Data Safety Monitoring Board (DSMB), which revealed roughly equal numbers of HIV infections among vaccine and placebo (dummy vaccine) recipients. There were no indications that the vaccine regimen had caused harm. Following the DSMB’s recommendation, immunizations have been stopped, and plans are being made to unblind participants (inform them whether they received active vaccine or placebo) and follow them for an additional 12 months to monitor for safety.

The research was sponsored by the HIV Vaccine Trials Network (HVTN) and had hoped to build on marginal evidence of efficacy observed in RV144, a vaccine trial that took place in Thailand with results reported in 2009.

Since the initial announcement, two webinars accessible to people in the USA have provided additional details on the HVTN 702 results and plans for follow up—the first was sponsored by the HVTN and Black AIDS Institute (BAI) and held on February 5th, the second was sponsored by AVAC and Advocacy for the Prevention of HIV and AIDS (APHA) and held on February 19th (a recording of this webinar is available).

The HVTN 702 Results

HVTN 702 recruited 5,407 sexually active, HIV-negative men and women aged between 18 and 35 years. On the HVTN/BAI webinar, principal investigator Glenda Gray explained that the DSMB’s interim analysis was based on 5,383 participants – 2,694 in the vaccine arm and 2,689 in the placebo arm. The median follow up time was 18 months. The DSMB analysis found that there had been 129 infections among vaccine recipients and 123 among those who received the placebo, indicating no effect on the risk of acquiring HIV in this population. Importantly, there was no possibility of the vaccine showing a significant effect on HIV acquisition if the trial had been allowed to continue until the original planned completion date, hence the DSMB recommendation to cease further immunizations.

Gray noted that 77% of the total planned follow up between study entry and month 24 had been completed, and 62.1% of participants had reached month 18.5, two weeks after the final vaccination. Data on the incidence of HIV infection measured every three months showed that it was almost identical between vaccine and placebo arms at every timepoint.

Gray also presented the incidence rates based on participant sex at birth and again the numbers were closely matched between vaccine and placebo. There were more women than men in the trial, so this analysis was based on 1886 female vaccine recipients, 1886 female placebo recipients, 808 male vaccine recipients and 803 male placebo recipients. At month 24, 114 HIV infections had occurred in females in the vaccine arm, 107 in females in the placebo arm, 14 in males in the vaccine arm and 14 in males in the placebo arm. HIV incidence was approximately four-fold higher in females, consistent with what is seen at the population level in South Africa.

Gray made clear the disappointment felt by the HVTN 702 co-chairs (Gray, Linda-Gail Bekker, Fatima Laher and Mookho Malahleha) and everyone else involved in the trial, but also pointed to the DSMB’s commendations for the how the research was conducted and the high regard shown for the participants. The trial answered a critical question, albeit not in the way that had been hoped, and there are over 15,000 samples available that will facilitate efforts to understand why the vaccine regimen did not work.

Discussing the possible implications of the results, Gray highlighted that one key difference with the RV144 trial in Thailand is the far greater rate of exposure to HIV among women—approximately 14 times higher in the South African versus Thai trial populations. Additionally, the failure of the specific vaccine regimen used in RV144 does not mean that other approaches under study are also doomed—Gray cited several ongoing trials, such as those of an HIV vaccine designed by Janssen, the PrepVacc study which is evaluating both pre-exposure prophylaxis (PrEP) and vaccination, the AMP protocols testing the efficacy of broadly neutralizing antibodies, and research into long-acting antiretrovirals for PrEP.

Community Feedback and Next Steps

On the AVAC/APHA webinar, Linda-Gail Bekker provided additional information on the follow up plans for HVTN 702. Participants are being invited to consent to being followed for a further 12 months to evaluate safety, and at their next visit will be informed as to whether they were in the vaccine or placebo arm of the trial. Bekker also explained that a journal article describing the results is in preparation, and the most likely forum for more detailed presentations on a range of issues related to the trial will be the R4P conference which takes place in Cape Town from October 11-15, 2020.

Ntando Yola, co-founder of APHA, introduced several community representatives involved with the HVTN 702 sites in South Africa who discussed their perspectives on the trial and feedback from participants. As with those responsible for conducting the trial, disappointment was the overarching feeling but there was also recognition that the negative result was still very important. There have been some expressions of concern by participants about the slight numerical difference in the number of HIV infections between the vaccine and placebo arms of the trial (six more in the vaccine group) and communications have focused on explaining why this is not a significant difference or evidence that the vaccine was harmful.

Questions have also arisen about the possibility of vaccine-induced seropositivity (VISP), provision of PrEP and the approach taken to participants who seroconverted. Linda-Gail Bekker addressed these issues, noting that to date very little VISP has been observed in HVTN 702. PrEP was made available to participants (and continues to be available), but uptake has been disappointingly low, mirroring the situation in South Africa outside of the trial. Bekker hopes that imminent PrEP promotion and demand creation initiatives from the Department of Health will help remedy this problem. Individuals who seroconverted during the trial were immediately referred for HIV treatment and are being followed.

The Vaccine Regimen in HVTN 702 and Other Efficacy Trials

On the topic of the specific HIV vaccine regimen used in HVTN 702, Mary Marovich, Director of the Vaccine Research Program at the Division of AIDS (National Institute of Allergy and Infectious Diseases, US National Institutes of Health) presented information on the types of scientific studies likely to be conducted to try to understand why it did not work. Marovich also addressed how the regimen is different from other HIV vaccines currently in efficacy trials.

HVTN 702 tested a prime-boost regimen similar to—but not exactly the same as—that used in the Thai RV144 trial. A harmless canarypox virus vector (ALVAC) delivering selected HIV antigens (parts of the virus capable of inducing an immune response) was administered at months 0, 1, 3, 6, 12 and 18. The antigens were derived from HIV clade C, the predominant virus variant circulating in South Africa. The boost part of the regimen comprised two differing forms of the HIV gp120 envelope protein, both also derived from HIV clade C, delivered with the adjuvant MF59. The boost was administered at months 3, 6, 12 and 18.

In RV144, the HIV antigens were derived from clades B and E (also known as CRF01_AE) and the immunizations were less frequent: ALVAC was given at months 0, 1, 3 and 6 and the gp120 protein boost at months 3 and 6. The gp120 protein boost was delivered with a different adjuvant, Alum.

A preparatory study (HVTN 100) conducted in South Africa demonstrated that the vaccines used in HVTN 702 induced similar—in some cases superior—immune responses compared to those observed in RV144 participants. These results were published in Lancet HIV in 2018 with additional information on the effects of the 12-month booster presented earlier this week in PLoS Medicine.

Marovich explained that samples from HVTN 702 will be studied to confirm that the vaccines induced robust immune responses, and to evaluate whether these responses were capable of recognizing the HIV strains that participants acquired during the trial. A particular focus will be placed on looking at the types of immune responses that appeared to correlate with reduced HIV risk in RV144 (sometimes described as “correlates of protection”).

The two other large ongoing HIV vaccine efficacy trials are HVTN 705 (Imbokodo) and HVTN 706 (Mosaico). There are superficial similarities with HVTN 702 in that they both involve a prime-boost HIV vaccine regimen, but Marovich cited several key differences. The HIV antigens are, for the most part, not derived from a single virus clade but rather represent specially tailored mosaics made up of elements from multiple different clades—the goal is to develop vaccines capable of working globally, regardless of the locally prevalent HIV clade.

The regimen also comprises a different viral vector, adenovirus serotype 26 (Ad26) and an HIV envelope protein boost containing gp140 rather than gp120. The adjuvant for the boost is Alum, as was used in RV144 but not HVTN 702. Additionally, in HVTN 705, the HIV envelope protein boost is from clade C HIV, whereas HVTN 706 is employing a “bivalent” boost containing both clade C and mosaic HIV gp140 proteins.

Another important distinction is that the rationale for HVTN 705 and 706 does not primarily derive from a prior human HIV vaccine trial, but rather promising results in animal models involving exposure of macaques to SHIVs (hybrids of simian and human immunodeficiency viruses). However, researchers have reported that certain immune profiles induced by the vaccines mirror those associated with reduced risk of HIV infection in RV144.

Revisiting RV144

Arguably, a question that looms over the HVTN 702 results that was not discussed on either webinar is: was the RV144 result real, or a fluke? This has been a matter of some controversy in the scientific community, primarily because the statistical significance of the RV144 result was extremely borderline—the reported reduction in risk of HIV acquisition was 31.2%, with a wide 95% confidence interval of 1.1 to 52.1. If the lower bound of a confidence interval crosses 1, then the result is not statistically significant, emphasizing the fragility of the result. Statisticians have estimated that there is an approximately 22% possibility that the finding could have occurred by chance.

Evidence advanced in support of the protection being real include an analysis of HIV incidence after the first year of RV144, which suggested that efficacy may have been as high as 60% at this timepoint, before vaccine-induced immune responses waned. But this analysis was not planned in advance (described as “post hoc”) and so may be unreliable.

A range of potential immune correlates of protection against HIV have also been reported for RV144. In some cases, there is evidence that similar immune responses offered protection in animal models. Again, however, these results do not represent definitive proof that the vaccine regimen in RV144 was protective—for example, it can be unclear if an individual’s immune response to a vaccine reflects some aspect of their immune system that renders them less susceptible to HIV independent of vaccination. Vaccine research veteran Stanley Plotkin, in a commentary co-authored with Georgia Tomaras, emphasizes that:

“To date, correlates of HIV-1 risk involving multiple immune responses have been identified for the RV144 HIV-1 vaccine efficacy trial. However, these are not yet accepted to be CoP [correlates of protection] since they have not been confirmed in another vaccine efficacy trial.”

There have been lively debates in the scientific literature, with commentaries by Ron Desrosiers and Per Johan Klasse and John P. Moore raising questions about the veracity of the RV144 analyses. These commentaries have in turn have been criticized and at least partly rebutted in a paper by Susan Zolla-Pazner and Peter B. Gilbert, researchers heavily involved in generating the data related to potential correlates of protection.

Importantly, there is very broad agreement—albeit not universal—that none of this uncertainty regarding RV144 undermines the rationale for conducting HVTN 702. The dismaying data from HVTN 702 confirming the high rates of HIV infection in South Africa, particularly in women, underscores that it was vital for researchers to follow up on the possibility of vaccine efficacy reported in RV144. But as the HIV vaccine field works to understand the results and learn from them, revisiting RV144 should not be off the table.

Additional Reading

• HVTN Fact Sheet: Understanding why vaccinations in the HVTN 702 Uhambo study were stopped
• HVTN 702 Q&A
• Why we’re still optimistic even in disappointment about an HIV vaccine - Nandisile Luthuli and Ntando Yola, Daily Maverick, February 6, 2020

Mosaic Antigens and Mountaineering Metaphors: Climbing Toward the Next HIV Vaccine Efficacy Trial

The pharmaceutical industry has made significant contributions to HIV vaccine research, but it has been rare for a major company to take the leading role in propelling a candidate toward efficacy testing. The only example to date occurred around the turn of the millennium with Merck’s adenovirus serotype 5 (Ad5) vector, which showed some evidence of promise in macaque models but was ultimately discontinued after being associated with an enhanced—rather than reduced—risk of HIV acquisition in the STEP and Phambili trials. 

Given Merck’s cautionary tale, it is all the more notable that Janssen Vaccines and Prevention B.V. is now rapidly advancing an experimental prime-boost HIV vaccine regimen, with plans announced at the IAS 2017 conference to launch a large scale “proof of concept” efficacy trial in women in late 2017/early 2018.

The Dutch biotech company Crucell, which Janssen acquired several years ago, initially produced the main vaccine candidates being studied. An iterative process involving both macaque and human studies has been ongoing, informing decisions about which versions of the vaccine constructs and which HIV antigens will be selected for efficacy evaluations. While Janssen is taking the lead, the program is a large collaboration including the Beth Israel Deaconess Medical Center (BIDMC), the Bill & Melinda Gates Foundation, the National Institute of Allergy and Infectious Diseases (NIAID), the HIV Vaccine Trials Network (HVTN), the International AIDS Vaccine Initiative, the US Military HIV Research Program, the Ragon Institute and the Los Alamos National Laboratory.

At IAS 2017 Hannah Schuitemaker, Vice President and Head of Viral Vaccine Discovery and Translational Medicine at Janssen Vaccines and Prevention B.V., presented results from a key clinical trial named APPROACH (the company has chosen monikers from mountaineering terminology to designate their steps toward the hoped-for summit of a licensable HIV vaccine). The trial randomized 400 participants into eight groups of 50, with each receiving different prime-boost recipes drawn from four possible ingredients: adenovirus serotype 26 (Ad26) vectors, modified Vaccinia Ankara strain (MVA) vectors and high or low dose trimeric clade C gp140 protein in alum adjuvant.

The Ad26 and MVA vectors used in the trial encode mosaic HIV antigens, which represent an amalgam of elements from multiple different HIV variants generated with the aid of computer software by Better Korber at the Los Alamos National Laboratory. The aim is to induce immune responses capable of recognizing HIVs from all circulating strains.

The crux of the APPROACH results is that the best-performing regimen comprised two priming immunizations (at months 0 and 3) with trivalent Ad26 vectors followed by two booster immunizations (at months 6 and 12) with a combination of the same Ad26 vectors plus a high dose soluble trimeric clade C gp140 Env protein with alum adjuvant. Trivalent refers to a mix of three Ad26 vectors, two containing different mosaic versions of Gag and Pol proteins (designated Ad26.Mos1.Gag-Pol and Ad26.Mos2.Gag-Pol) and one containing a mosaic Env protein (designated Ad26.Mos1.Env).

Gratifyingly for the researchers, this regimen had also shown the highest protective efficacy in a macaque study conducted by Dan Barouch at BIDMC. In 12 vaccinated animals given a series of low-dose challenges with the pathogenic SIV/HIV hybrid virus SHIVsf162p3, per-exposure risk of acquisition was reduced by 94% and, after a total of six challenges, 66% of the macaques remained uninfected. For comparison, the next-best regimen in the study used MVA vectors in the boosting phase and reduced per-exposure risk by 87%, with 42% of the group of 12 animals still uninfected after the completion of six challenges.

Performance of the regimens in the APPROACH trial was judged based on measures of HIV-specific immune responses that correlated with protective efficacy in the macaque studies. These included the magnitude of binding antibodies to the HIV Env protein and Env-specific T cell responses, as well as antibody-dependent cellular phagocytosis (ADCP, an antibody function that can mediate killing of virus-infected cells). After the final boost in APPROACH, 80% or more of participants displayed the requisite immune responses at levels above the desired magnitude. These results greatly exceeded the targets set for making the go/no go decision about proceeding to efficacy testing.

Results are still pending from one other preparatory clinical trial, TRAVERSE, which is comparing the trivalent mix of Ad26 vectors with a tetravalent version that adds an additional mosaic Env protein (Ad26.Mos25.Env). If all goes according to plan, the tetravalent combination will be used in the planned efficacy trial, HPX2008/HVTN 705, which aims to enroll 2,600 sexually active cisgender women aged 18-35 at sites in South Africa, Zambia, Zimbabwe, Malawi and Mozambique. Participants will be randomized 1:1 to receive either the active vaccine regimen or placebo.

Schuitemaker’s IAS 2017 presentation is available on the conference YouTube channel (it’s first in the Translational Vaccinology conference session). An excellent overview of Janssen’s HIV vaccine development work was provided earlier this year by Maria Grazia Pau on an AVAC webinar, which is also available on YouTube.

An issue that has gone largely unmentioned in relation to Janssen’s program is the lingering uncertainty regarding exactly what caused the enhanced risk of HIV infection observed in recipients of Merck’s Ad5 vaccine vector. As discussed at a special summit convened by NIAID in 2013, there are some concerns that the same problem could arise with Ad vectors of other serotypes.

For the most part, theories to explain the outcome of the Merck trials have centered on the induction of HIV-specific CD4 T cells, which could have been vulnerable to HIV infection in the absence of any antibody responses (some limited data from a small macaque study supports this possibility). The antibody component of the Janssen approach, in addition to the use of an Ad vector from a different serotype, is likely to obviate any fears that this type of problem could arise. 

But another suggested scenario involves an Ad vector-induced increase in the number of Ad-specific CD4 T cells engaged in immune surveillance of natural adenovirus infections at mucosal sites (particularly penile sites), which might be a concern with the Ad26 vector due to the extensive cross-reactivity of Ad-specific CD4 T cells.

In other words, the Ad26 vector could potentially induce Ad26-specific CD4 T cells capable of recognizing adenoviruses of other serotypes that recipients had encountered (or encountered during the trial)—natural adenovirus infections have been found to be relatively common and potentially persistent, so increasing the number of Ad-specific CD4 T cells at these locations might conceivably provide additional targets for HIV. A similar mechanism has been proposed to explain the well-documented association between HSV-2 infection and increased risk of HIV acquisition.

Because the initial efficacy study involving the Ad26 vector is in women, there does not appear to be any clear cause to worry about enhanced susceptibility to HIV infection, as it was only observed in male recipients in extended follow up of participants in the Phambili trial of Merck’s Ad5 vector. But, with trials likely to include men in the future, it would be prudent to conduct a review of the recommendations that emerged from the 2013 NIAID summit on Ad vector platforms and the status of relevant studies, to ensure that the safety of participants is maximized. A logical venue for this discussion might be a future meeting of the AIDS Vaccine Research Subcommittee (AVRS).

Capsules From CROI 2017

The annual Conference on Retroviruses & Opportunistic Infections (CROI) took place in Seattle from February 13th-16th, offering a dizzying parade of new data. Webcasts of presentations and PDF files of posters were rapidly placed online and are accessible via the CROI website.

A Fillip for Kick & Kill

On the cure research front, the results that drew the most attention related to a small trial combining a latency-reversing agent (the HDAC inhibitor romidepsin) with therapeutic vaccination—a strategy commonly referred to as “kick & kill.” Presented by Beatriz Mothe from IrsiCaixa in Barcelona, the crux was that five out of 13 recipients of the interventions have since interrupted ART and displayed control of viral load to low levels for several months (the longest a little over six months). None of the five have yet met the study criteria for restarting ART, which is a viral load over 2,000 copies/ml; the other eight participants quickly rebounded to levels above this cutoff and resumed ART. Contrary to a slew of erroneous headlines in the mainstream media, none of the five individuals are “virus-free;” based on the slide presentation, three appear to have viral loads below the limit of detection of the assay used (20 copies/ml) whereas the other two are oscillating between the limit of detection and ~2,000 copies/ml.

The study represented a rollover from a prior trial that administered two therapeutic vaccines to 24 people who had started ART within three months of HIV infection. The vaccine vectors were based on a chimpanzee adenovirus (ChAdV63) and modified Vaccinia Ankara strain (MVA), both encoding antigens designed to focus T cell responses on highly conserved parts of HIV, including elements from the Gag, Pol, Env and Vif proteins. In a poster presented at last year’s CROI, Mothe reported that receipt of these vaccines shifted HIV-specific T cell responses toward the intended conserved targets but did not have a measurable effect on the size of the HIV reservoir. A total of 15 participants from this original trial then agreed to enroll in a follow up study, which provided booster immunizations with the MVA vector before and after three infusions of romidepsin. Eight weeks after the final MVA dose, all participants interrupt ART, and so far 13 individuals have reached this stage and contributed data to Mothe’s report at CROI 2017.

Although the numbers are small and follow up still relatively short, Mothe noted that the frequency of viral load containment in the cohort (~38%) is higher than has been observed in any studies involving early initiation of ART (where rates have varied from 0-15%). Ongoing analyses are exploring potential correlates of control, with Mothe suggesting there are hints of links between the induction of T cell responses to the conserved HIV antigens, lower HIV DNA levels, and the achievement of post-ART viral load control. The contribution of romidepsin is unclear due to the lack of any control group, but the drug did not have a measurable effect on the size of the HIV reservoir when levels before and after administration were compared. There was evidence of blips in HIV viral load after each romidepsin dose, consistent with a latency-reversing effect. Mothe pointed out that blips also occurred after the MVA immunizations in 60% of the participants, indicating that the vaccine may have activated latently infected CD4 T cells specific for HIV antigens (a number of studies have reported that HIV-specific CD4 T cells can contain a substantial proportion of the latent HIV reservoir). Romidepsin infusions were associated with an array of side effects known to be caused by HDAC inhibitors—primarily grade 1 and grade 2 headaches, fatigue and nausea—and the drug also caused precipitous but transient declines in peripheral blood CD4 T cell counts of around 300 cells. One participant developed the serious complication of sepsis after the final romidepsin dose.

Additional follow up will be required before the significance of the study can be fully assessed, but it represents the first time that any kick & kill strategy has been associated with an increased frequency viral load control after ART interruption. There is an important caveat that applies to all studies reporting maintenance of low viral load in the absence of ART: while most news coverage assumes that the health benefits of viral load suppression will be the same regardless of whether the suppression is being mediated by immune responses or ART, that assumption remains unproven. Based on studies of elite controllers, it is possible that even low level viral load may be associated with a slight increase in the risk of morbidity and mortality compared to the stricter control of HIV replication imposed by ART. If post-ART control of viral load can eventually be induced in more significant numbers of people, there will be opportunity to more carefully investigate this issue by comparing clinical outcomes between post-ART controllers and study participants who restart or continue ART.

Complete Suppression of HIV Replication by ART

The question of whether low-level HIV replication persists despite ART has been a major issue of debate in the cure research field. The balance of evidence has favored the conclusion that ART typically completely prevents HIV from reproducing in adherent individuals, but some studies have challenged this view, including a paper published last year in Nature which argued that cryptic replication occurs in lymphoid tissues. At CROI, Mary Kearney from the National Cancer Institute addressed the question with an analysis of HIV evolution in ten children who started ART early (mostly within a few months of birth) and were followed for at least seven years. Two of the children experienced some lapses in suppression of viral load and served as positive controls, while the remaining eight showed no evidence of any viral load blips during follow up.

Kearney found that the evolution of HIV genetic sequences was readily apparent in the two individuals whose viral load was not continually suppressed. In stark contrast, no evidence of HIV evolution was detectable in the other eight participants, supporting the idea that ART completely stymies viral replication. Kearney suggested that differences in the types of tools used to analyze HIV evolution may explain some of the conflicting results that have been reported, noting that the Bayesian approach employed in last year’s Nature paper may mistakenly suggest that the virus has been evolving because the timing of sample collections influences the outcome of the analysis.

Kearney’s results were buttressed by a poster presentation from Morgane Rolland of the US Military HIV Research Program (US MHRP). Rolland studied eight individuals who initiated ART at Feibig I, an extremely early stage of infection estimated to represent the period 10-17 days after HIV acquisition. After an average of around three years, ART was interrupted as part of a protocol assessing whether HIV remission might occur. All eight participants experienced a viral load rebound within a median of 26 days, and Rolland compared the reemerging HIV genetic sequences with those sampled at the pre-ART baseline. These analyses, like Kearney’s, revealed no evidence of HIV evolution during ART. Jintanat Ananworanich also described the results of this US MHRP clinical trial in detail in a separate oral presentation.

Another Case of Temporary HIV Remission in a Stem Cell Transplant Recipient

To date, Timothy Ray Brown remains the only individual considered to have been cured of HIV infection, an outcome achieved as a result of a complex series of treatments for a life-threatening cancer that included stem cell transplants from a donor homozygous for the CCR5Δ32 mutation (which renders immune cells resistant to most HIV strains). Brown was in attendance at CROI, celebrating reaching a milestone of ten years since those transplants were performed. But it has also been learned—as a result of the experience of two individuals known as “the Boston patients”—that HIV-positive people who receive stem cell transplants for cancer treatment can experience dramatic reductions in the HIV reservoir even when the stem cell donors lack the CCR5Δ32 mutation. In the case of the Boston patients, this shrinking of the reservoir ultimately allowed for a temporary period of remission after ART interruption; the individuals were able to go for three and eight months without any signs of HIV activity, respectively, before viral load rebounded (Boston patient Gary Steinkohl has since gone public to discuss the experience of participating in this research).

A poster at CROI 2017 from Nathan Cummins at the Mayo Clinic in Rochester reported another case of HIV remission with broad similarities to the Boston patients. The individual received a stem cell transplant from a donor without the CCR5Δ32 mutation as part of his treatments for acute lymphoblastic leukemia. By day 56 post-transplant, HIV DNA was no longer detectable in blood and subsequent sampling of large numbers of cells by leukapheresis showed significant declines in measures of the HIV reservoir. An occurrence of graft-versus host disease (GVHD) was associated with apparent elimination of most of the individual’s original CD4 T cells, which were present at a frequency of around 1 in 10 cells at day 142 but had diminished to ~13 per every million cells by day 265. HIV-specific antibody responses also waned.

Approval was obtained to interrupt ART on day 784 post-transplant. HIV viral load rebound occurred after a period of remission lasting 288 days (a little over nine months), with levels rising relatively slowly from 60 copies/ml initially to 1640 copies/ml five days later, at which point ART was restarted. No symptoms were associated with the reappearance of viral load, contrasting with the Boston patients who both experienced sharp increases in viral load and symptoms of acute retroviral syndrome at the time they rebounded.

A colleague of Nathan Cummins, Stacey Rizza, presented the poster, and in discussing the case revealed that the individual had the misfortune to experience a car accident shortly before viral load rebounded (without serious injury, thankfully). One speculative possibility under consideration is that inflammation caused by stress might have triggered the activation of a latently infected cell (or cells). Samples were collected throughout follow up and are now being evaluated to try and gain a better understanding of what occurred.

Remission Macaques

The potential for rare latently infected cells to persist in a dormant state for extended periods despite ART interruption was emphasized in a symposium talk by Louis Picker from the Vaccine & Gene Therapy Institute at Oregon Health Sciences University. Picker’s effort to develop a CMV-based vaccine for HIV has attracted considerable publicity due to unprecedented results achieved in the SIV/macaque model: when immunized with a version of the vaccine encoding SIV antigens, half the recipient macaques exert strict control over a pathogenic SIV challenge and appear to eventually clear the infection. Picker outlined two possible explanations for this outcome:

1. Vaccine-induced immune responses limit SIV replication to such an extent that only a very small, unstable SIV reservoir is formed, which eventually decays away over time.
2. Vaccine-induced immune responses actively clear the SIV reservoir over time.

To try and discern which explanation is correct, Picker and colleagues conducted a therapeutic study in which the CMV-based vaccine was administered to SIV-infected macaques on ART (a version of the vector encoding TB antigens served as a control). The timing of ART initiation in the experiment was guided by the detection of monocyte activation after SIV challenge, because previous work suggested this coincided with the initial formation of the viral reservoir. The approach allowed the researchers to divide macaques into various groups depending on how many days after SIV challenge ART was first administered.

After 600 days of treatment, ART was interrupted in all animals. Receipt of the CMV vaccine encoding SIV antigens did not affect viral load rebound, indicating it lacked any therapeutic effect. But Picker highlighted that timing of ART showed a major influence: all six macaques started earliest, on day 4 or 5 post-challenge, did not experience any viral load rebound. Necropsy studies were eventually conducted and only rare traces of SIV genetic material could be detected in tissues. Large volumes of cells sampled from these animals were unable to transmit SIV to uninfected macaques. CD8 T cells were depleted to assess if SIV-specific CD8 T cells were suppressing the virus, but there was no return of viral load, arguing against immunological control.

Out of 35 animals administered ART from day 6 or later, only one (initiated on day 6) displayed a similar lack of rebound. But after eight months, shortly before a planned necropsy, this macaque experienced a rebound in SIV viral load. Picker noted the parallel between this outcome and those observed in the human remission cases of the Mississippi baby and Boston patients.

Picker drew several conclusions from this work:

• The window of opportunity between infection and the formation of a stable long-lived viral reservoir is tiny – in this experiment, a delay in the initiation of ART of just one day had a huge effect on the risk of rebound when ART was interrupted.
• As has been observed in human remission cases, latently infected cells can linger in an inactive state for a long time before causing a rebound in viral load. This observation supports the importance of efforts to reverse HIV latency and promote clearance of latently infected cells.
• The lack of a therapeutic effect of the CMV-based vaccine indicates that, in the preventive context, it likely works by limiting the formation of the SIV reservoir, rather than inducing immune responses capable of progressively clearing the reservoir.

Picker also mentioned that there does appear to be a case of ultra-early ART leading to temporary remission in an adult human; this is an individual who acquired HIV infection in a short period between screening for a pre-exposure prophylaxis (PrEP) demonstration project and starting on the Truvada PrEP regimen. When HIV was detected in the sample taken on the first day of PrEP administration, ART was immediately substituted for Truvada (this occurred within a matter of days). Hiroyu Hatano from UCSF described the case at CROI in 2014, and cited plans to eventually conduct an ART interruption. Early last year, ART was stopped, and the individual displayed no sign of HIV activity for 220 days before rebound was detected and treatment restarted. A full presentation of the data is expected at the International AIDS Society (IAS) conference in July.

Sex Differences in HIV Persistence

At the IAS conference in 2015, Jonathan Karn reported that the biology of HIV latency is influenced by the estrogen receptor on CD4 T cells, leading to sex differences in the activity of candidate latency-reversing agents (LRA). Specifically, the hormone estradiol significantly inhibited the effect of LRAs in women but not men, whereas drugs that antagonize the estrogen receptor—including the breast cancer treatments tamoxifen and fulvestrant—enhanced latency reversal. At CROI 2017, Eileen Scully from Johns Hopkins University presented a poster describing results from a study comparing measures of HIV persistence in carefully matched cohorts of women and men.

Contrary to a previously published retrospective analysis, levels of HIV DNA were not significantly different between the groups. However multiple measures indicated that expression of HIV RNA from the viral reservoir was lower in women compared to men. These included cell-associated HIV RNA and low-level viremia (measured with an assay capable of capturing a single HIV RNA molecule), as well as the ratio between the amount of integrated HIV DNA detected and the ability to induce HIV RNA production from the reservoir (using the TILDA assay). Consistent with the lower HIV expression, markers of T cell activation were also significantly reduced in women compared to men. Scully concluded that biologic sex is an important consideration in cure research, and that the manipulation of sex hormones may have a role to play in efforts to target the HIV reservoir.

Jintanat Ananworanich drew attention to Scully’s poster in an excellent plenary overview of the cure research field, and emphasized the need to do more to facilitate increased participation by women.

Ameliorating Immune Reconstitution Inflammatory Syndrome

Immune reconstitution inflammatory syndrome (IRIS) is a potentially life-threatening consequence of the restoration of immune responses to opportunistic pathogens in people who initiate ART at low CD4 T cell counts. Evidence suggests that immune responses can become exaggerated and overly inflammatory as a deficient, dysregulated immune system begins to recover due to ART-mediated HIV suppression. In some cases opportunistic infections can get worse before improving, a problem termed paradoxical IRIS. This is a particularly significant concern in tuberculosis (TB), with a reported mortality rate of around 3%.

In an effort to reduce morbidity and mortality from paradoxical TB-IRIS, Graeme Meintjes and colleagues conducted a randomized trial evaluating a four-week course of the corticosteroid prednisone in individuals at risk. The encouraging results were debuted as a late-breaker at CROI, with Meintjes reporting a significant 30% reduction in the incidence of paradoxical TB-IRIS and a trend toward decreased hospitalizations in the prednisone arm. No evidence of an increase in cancer risk—which had been raised as a potential issue with prednisone—was observed. The evidence from the trial suggests that the approach should be adopted as the standard of care for individuals at risk for paradoxical TB-IRIS.

The conference was also cheered by the report of a breakthrough in treating extensively drug-resistant TB, a condition normally requiring the use of debilitating, toxic injectable drugs. A small trial of three oral drugs generated highly promising results, offering hope for progress after decades of stagnation (see Jon Cohen’s report in Science).

Encouraging Results With Anti-Inflammatory Antibody

Many studies have reported that HIV infection is associated with an increased risk of arterial inflammation and cardiovascular disease. The pipeline of therapies that might reduce this risk has been discouragingly dry, but at CROI Priscilla Hsue from UCSF presented results from a trial of an anti-inflammatory antibody targeting the cytokine IL-1β that may augur a change for the better. The antibody, canakinumab, is FDA-approved for the treatment of certain autoimmune conditions and is being tested as a therapy for cardiovascular disease in a large (10,000-person) randomized study involving in HIV-negative individuals. Hsue’s pilot trial recruited ten HIV-positive people on suppressive ART with a median age of 59. A single dose of canakinumab was administered at baseline and participants followed for eight weeks.

There were significant declines in inflammatory biomarkers: IL-6 levels declined by 30% and high sensitivity c-reactive protein by 41%. Imaging studies revealed a 10% reduction in arterial inflammation. In terms of safety, Hsue noted a transient drop in absolute neutrophil count that resolved by week four and a single case of shingles that did not appear related to any immunological parameters. No significant changes in any biomarkers of HIV disease were seen apart from a 17% drop in CD8 T cell counts between baseline and week two that was not apparent at any other timepoints. CD4 T cell counts, viral load and T cell activation markers were unchanged. Analyses of measures of the HIV reservoir are ongoing.

“We believe this is one of the first immune-based therapies to show a very profound reduction in inflammatory markers in the setting of treated HIV,” Hsue said, noting that a larger randomized controlled trial is planned that will give two canakinumab doses and follow 100 participants for 36 weeks.  

Dual bNAb Combo Leads to Long-Term SHIV Control

In a symposium on broadly neutralizing antibodies (bNAbs), Michel Nussenzweig premiered unpublished results from a collaborative experiment his laboratory has conducted with Malcolm Martin at the National Institute of Allergy and Infectious Disease (NIAID). The study challenged macaques with a pathogenic SHIV (SHIVAD8) and, starting three days post-infection, administered a combination of two bNAbs, 3BCN117 and 10-1074, thrice weekly for two weeks. Nussenzweig reported that, interestingly, the bNAbs led to prolonged preservation of CD4 T cells and control of viral load in treated animals, with many displaying what he described as an “elite controller phenotype.” The depletion of CD8 T cells from some of the macaques led to increased viral load, indicating that the short course of combined bNAbs had positively modulated virus-specific immunity. A paper by Nishimura et al describing the results is now in press at Nature.

Macaque Models in HIV/AIDS Research

Jeff Lifson delivered an exceptional Bernard Fields Memorial Lecture on the role of non-human primate models in HIV/AIDS research. Included in the broad survey were a few nuggets of unpublished data from ongoing work: in a collaboration with Louis Picker, the anti-B cell antibody rituximab has been used to disrupt B cell follicles in elite controller macaques, and this led to reductions in SIV viral load and numbers of T-follicular helper cells in the lymph node, consistent with previous reports that B cell follicles can represent a sanctuary site for the virus. A similar study is now being conducted in SIV-infected macaques treated with ART.

As an alternative approach to the same problem, Lifson cited the work of Dave Ott whose laboratory is investigating the genetic modification of CD8 T cells to express CXCR5, a chemokine receptor that can guide the CD8 T cells into B cell follicles. Lifson showed imaging results demonstrating that this strategy successfully localized CD8 T cells to the follicles, and work is now underway to modify CD8 T cells to express both CXCR5 and T cell receptors targeting SIV antigens.

Cellular & Gene Therapy in Cancer and HIV

Carl June from the University of Pennsylvania gave a plenary talk on the dramatic advances that have occurred in the cancer field involving genetically modified T cells. These approaches typically extract T cells from an individual, genetically modify them in the laboratory to target the desired antigen, then expand and reinfuse the cells, which are described as “chimeric antigen receptor” (CAR) T cells. Impressive results have been obtained against a variety of cancers, although serious safety issues have also emerged in some cases due to the potential for excessively vigorous immune reactions to cause inflammation and pathology. June highlighted that many different clinical trials of this type of approach are currently underway across the globe in cancer, but none are occurring in HIV. June advocated for the development of combination approaches that both engineer HIV resistance in CD4 T cells (such as the Sangamo approach, which June has been involved in studying) and modify CD8 T cell antigen receptors to better target HIV-infected cells for elimination. He also stressed the need to foster engineering innovations to make this type of therapy cheaper, scalable and globally accessible.

Sources of CROI Coverage

High quality reporting from CROI 2017 is available from multiple online sources, including AIDSMap, AVAC, i-Base, HIVandHepatitis.com and NATAP. If you know of other sources I’ve missed and should include, please leave a comment and I’ll update the links.

Therapeutic Vaccination Plus Toll-Like Receptor Stimulation Shows Promise in the SIV Model

Since the earliest days of HIV research, the idea of trying to enhance immune responses to the virus using therapeutic vaccination has been extensively explored, but with little success. The ability of the virus to compromise CD4 T cells, which would normally coordinate antiviral immunity, may be one contributor to the generally disappointing results. Virus-induced damage to the lymph node environment where immune responses are initiated has also been suggested to play a role. Researchers have not given up, however, and a recent study in SIV-infected macaques has produced encouraging results.

The study was conducted by investigators involved in one of the newly created Martin Delaney Collaboratories, which have been funded by the National Institute of Allergy and Infectious Diseases (NIAID) to pursue a cure for HIV infection. Named “I4C: Combined Immunologic Approaches to Cure HIV-1,” the collaboratory is co-led by Dr. Dan Barouch at the Beth Israel Deaconess Medical Center, Dr. John Mellors at the University of Pittsburgh, and Col. Nelson Michael at the U.S. Military HIV Research Program. Two industry partners are also involved: Janssen, who have developed the adenovirus serotype 26 (Ad26) and modified Vaccinia Ankara strain (MVA) vaccine vectors used in this experiment, and Gilead Sciences, who contributed a TLR7 agonist that has previously shown some potential as a single agent.

The investigators infected 36 rhesus macaques with the highly pathogenic SIVmac251 and initiated ART a week later, during the acute phase of infection. After 24 weeks, the animals were divided into four groups of nine. One group served as controls, while the others received either Ad26 + MVA vaccines (encoding SIV antigens), the TLR7 agonist, or a combination of the vaccines and the TLR7 agonist. After 72 weeks, ART was stopped and viral load rebound assessed. The crux of the results is that animals in the combination group exhibited significantly enhanced control of SIV viral load when ART was interrupted, with three animals controlling viral replication to undetectable (<200 copies/ml) levels after an initial spike. Set point viral loads in this group averaged around 1,500 copies/ml, which was 1.74 logs lower than controls. Viral load rebound was also delayed by a median of 25 days compared to 10 days in controls.

Additional analyses showed that the breadth of SIV-specific T cell immune responses induced by the vaccines correlated with viral load control. Levels of SIV DNA measured in peripheral blood and lymph nodes were undetectable (cutoff <3 copies per million CD4 T cells) in the majority of vaccine recipients prior to ART interruption, and reductions in SIV DNA correlated with the delayed time to viral load rebound.

As is always the case with animal model studies, it will be important to assess if the results translate to humans. Janssen is now sponsoring a clinical trial of the Ad26 + MVA combination in acutely infected individuals in Thailand, and a separate evaluation of Gilead's TLR7 agonist is ongoing in the United States, potentially laying the groundwork for combination studies.

Additional information on the I4C: Combined Immunologic Approaches to Cure HIV-1 collaboratory can be gleaned from presentations at the recent NIAID Strategies for an HIV Cure meeting – see the webcast of day one, starting at the 5:49:45 mark.

Prime-Boost HIV Vaccine Approach Shows Promise in Macaques; Janssen Aims to Advance to Human Efficacy Trials

A paper published earlier this month in Science augurs a major new effort to advance a prime-boost HIV vaccine strategy into human efficacy trials. The vaccine components are manufactured by Crucell Holland B.V, which is now one of the Janssen Pharmaceutical Companies of Johnson & Johnson, and—in a very welcome development for the HIV vaccine field—Janssen has recently outlined a comprehensive development plan that they hope will lead to a licensable HIV vaccine. Frank Tomaka, MD, Clinical Leader, HIV Vaccines, presented details on an AVAC webinar held May 18th (slides and audio are available online). Since the failure of Merck’s candidate in 2007, there has been a dearth of major pharmaceutical company involvement in HIV vaccine research, and planning for further efficacy trials was limited to one collaborative endeavor known as the Pox-Protein Public-Private Partnership (P5) (the work of P5 is also described on the AVAC webinar by Glenda Gray). The promising macaque results described in the new Science paper offer some insight into why Janssen has now entered the fray.

The experiments involved a priming immunization with an adenovirus serotype 26 (Ad26) vector encoding SIV Env/Gag/Pol antigens followed by boost with either an SIV envelope trimer protein or an Ad35 vector also expressing Env/Gag/Pol. Twelve macaques received each of the vaccine regimens and eight served as controls. Six of the 12 recipients of the Ad26/Env trimer combination remained uninfected after six sequential challenges with the highly pathogenic SIVmac251, compared to two in the Ad26/Ad35 group. Two of the infected animals in the Ad26/Env trimer group controlled viral load to undetectable levels whereas the 10 infected recipients of Ad26/Ad35 displayed detectable viral loads typical of progressive disease. As expected, high viral loads were seen in all unimmunized controls.

The researchers (led by Dan Barouch from Beth Israel Deaconess Medical Center) conducted several experiments to confirm that the apparently protected macaques were truly uninfected, including transfer of 60 million peripheral blood and lymph node mononuclear cells into naïve animals. While cells from the two macaques controlling viral load efficiently transferred SIV infection, this was not the case for any of the protected macaques. The results are impressive because the challenge virus SIVmac251 has historically been very difficult to protect against. The authors also note that in a separate experiment with a different challenge virus (the HIV/SIV hybrid SHIV162P3), protection was also observed in recipients of the Ad26/Env trimer regimen albeit at a slightly lower rate (8 of 20 animals or 40%).   

In both sets of experiments, protection correlated with the presence of antibodies capable of exerting multiple Fc effector functions (referred to as polyfunctional antibody responses). Fc effector functions include induction of immunological mechanisms such as antibody-dependent cellular phagocytosis, which can mediate clearance of infected cells. Notably, the Env trimer protein boost was found to be essential for inducing a more polyfunctional antibody response. 

Several human clinical trials are now evaluating the safety and immunogenicity of different components of the vaccine regimen. This ongoing work was highlighted in a press release about the macaque study issued by Johnson & Johnson. If all goes according to plan, efficacy trials may begin in 2017. 

Science. 2015 Jul 2. pii: aab3886. [Epub ahead of print]

Protective efficacy of adenovirus-protein vaccines against SIV challenges in rhesus monkeys.

Barouch DH, Alter G, Broge T, Linde C, Ackerman ME, Brown EP, Borducchi EN, Smith KM, Nkolola JP, Liu J, Shields J, Parenteau L, Whitney JB, Abbink P, Ng'ang'a DM, Seaman MS, Lavine CL, Perry JR, Li W, Colantonio AD, Lewis MG, Chen B, Wenschuh H, Reimer U, Piatak M, Lifson JD, Handley SA, Virgin HW, Koutsoukos M, Lorin C, Voss G, Weijtens M, Pau MG, Schuitemaker H.

Abstract

Preclinical studies of viral vector-based HIV-1 vaccine candidates have previously shown partial protection against neutralization-resistant virus challenges in rhesus monkeys. In this study, we evaluated the protective efficacy of adenovirus serotype 26 (Ad26) vector priming followed by purified envelope (Env) glycoprotein boosting. Rhesus monkeys primed with Ad26 vectors expressing SIVsmE543 Env, Gag, and Pol and boosted with AS01B-adjuvanted SIVmac32H Env gp140 demonstrated complete protection in 50% of vaccinated animals against a series of repeated, heterologous, intrarectal SIVmac251 challenges that infected all controls. Protective efficacy correlated with the functionality of Env-specific antibody responses. Comparable protection was also observed with a similar Ad/Env vaccine against repeated, heterologous, intrarectal SHIV-SF162P3 challenges. These data demonstrate robust protection by Ad/Env vaccines against acquisition of neutralization-resistant virus challenges in rhesus monkeys.

Lack of Efficacy and Safety Concerns Blight Adenovirus Vaccine Vectors

Vaccine vectors based on adenoviruses—which are common in nature and cause severe colds—were once viewed as promising for HIV and other intractable diseases due to their ability to induce antigen-specific CD8 T cell responses in the majority of recipients. The subsequent Icarus-like trajectory of the approach in HIV has been covered in some detail on this blog, starting with the results of the first efficacy trial of Merck’s now-discontinued adenovirus serotype 5 (Ad5) candidate (the Step study), which showed that the vaccine significantly increased the risk of HIV acquisition and did not significantly lower viral load or preserve CD4 T cell counts in participants who became infected.

The HIV vaccine section of TAG’s new 2013 Pipeline Report covers the latest round of grim news, which emerged earlier this year with the announcement that immunizations in the lone ongoing HIV vaccine efficacy trial, HVTN 505, were being stopped at the recommendation of the Data Safety Monitoring Board (DSMB). An interim analyses conducted by the DSMB on April 22, 2013 found that the vaccine regimen—comprised of three priming immunizations with a DNA vaccine and a booster shot with an Ad5 vector (both designed by the NIH’s Vaccine Research Center)—did not show efficacy either in terms of preventing HIV infection or lowering post-infection viral load set points, and there was no possibility of efficacy being demonstrated if the trial ran to completion. The total number of infections was greater in the vaccine arm compared to placebo (41 vs. 30), but many of these infections occurred prior to the administration of the Ad5 boost and the difference was not statistically significant. Post-boost, there were 27 infections in the vaccine arm and 21 in the placebo arm.

On the heels of this announcement came word that extended follow up from the second efficacy trial of Merck’s Ad5-based HIV vaccine, the Phambili trial in South Africa, had documented significantly more infections among vaccine recipients compared to placebo recipients. The data were described by principal investigator Glenda Gray at the HIV Vaccine Trials Network meeting in Washington DC on May 7th, and reported by Jon Cohen in Science on May 10th. Although it went largely unnoticed at the time, on May 14th the National Institute of Allergy and Infectious Diseases (NIAID) issued a bulletin reporting that regulatory authorities had been notified of the Phambili findings. The bulletin notes that while the initial published analysis of the trial results did not reveal significant differences between vaccine and placebo arms, “in the current analysis of the full 3.5 year follow-up period, the researchers found that 100 study participants became HIV-infected: 63 participants who received the investigational vaccine and 37 participants who received a placebo injection. The increased number of HIV infections among the vaccinated recipients was greatest among men and more pronounced roughly 30 months after initial vaccination.” There are some potential caveats: the additional infections occurred after the study was unblinded, and there was a substantial drop-out rate that was slightly greater in the placebo arm. Also, in contrast to the Step trial where the enhanced HIV risk has been reported to have waned over time, the increased rate of infection occurred late (>2 years post vaccination). 

The accumulation of negative data has left a cloud of suspicion hanging over all investigational adenovirus-based vaccines, including those based on alternate human serotypes to Ad5 and chimpanzee-derived adenovirus serotypes. The mechanism of the apparent enhancement of HIV acquisition risk in the Step and Phambili trials remains unclear. Importantly, it is not yet known if the adenovirus vectors were somehow solely responsible or if the effect was interlinked with the immune responses to HIV that were induced by the constructs (as one small but as yet unconfirmed macaque study has suggested). Complicating matters further, evidence from the Step study indicated that the degree of pre-existing immunity to natural Ad5 (as measured by antibody titers) was correlated with the magnitude of the vaccine-associated enhancement of HIV risk. In the absence of clarity regarding these issues, there remains the worrying possibility that experimental adenovirus-based vaccines for other diseases (such as TB, malaria, and hepatitis C) could place recipients at increased risk of becoming HIV infected if they are exposed to the virus.

Currently the various stakeholders in the development of adenovirus-based vaccine candidates, including major sponsors such as NIAID and the International AIDS Vaccine Initiative (IAVI), are conducting meetings to discuss the new findings and their implications for the future. It is not yet known if planned or ongoing trials will be affected. In a related development—as reported by Mike Frick in the TB vaccine section of TAG’s Pipeline Report—plans for a large efficacy trial of an Ad35-based TB vaccine candidate have been significantly scaled back due to the observation that the approach is less immunogenic than preliminary results had suggested.

Behavior and Circumcision Status Do Not Explain Increased Risk of HIV Acquisition Associated with Ad5-Based Vaccine

In September 2007, the HIV vaccine field received an unexpected setback when it was announced that the phase IIb efficacy trial of a candidate developed by Merck was being stopped early due to lack of efficacy. The trial was conducted by the HIV Vaccine Trials Network (HVTN) and was referred to as the STEP study. The Merck vaccine aimed to stimulate T cell immunity against HIV, and used a novel attenuated adenovirus serotype 5 (Ad5) vector to deliver the HIV antigens Gag, Pol and Nef. The Ad5 approach was selected because it induced unprecedented levels of HIV-specific CD8 T cell responses in phase I and II trials, with >70-80% of recipients responding (the previous best was a dismal 20-30% of recipients showing low-level CD8 T cell responses after immunization with an ALVAC vector). Although HIV-specific CD8 T cell responses were not anticipated to protect against acquisition of HIV infection, evidence indicated that they might be able to suppress HIV replication and thereby increase the chances of vaccine recipients becoming elite controllers if they became HIV-infected.

The STEP study was stopped after an interim analysis by the Data Safety Monitoring Board revealed that this hoped-for salutary outcome was not being observed. Furthermore, it transpired that certain subgroups of the trial population experienced a significantly increased risk of HIV acquisition associated with receipt of the vaccine. In the overall results, this finding represented a strong trend that did not quite reach statistical significance. However, in a pre-specified analysis that evaluated results based on baseline levels of antibodies to Ad5, there was a stepwise increase in the risk associated with vaccination as anti-Ad5 antibody titers increased, strongly suggesting a real biological effect. Subsequent post-hoc studies revealed that the effect appeared entirely concentrated among uncircumcised men who have sex with men. To their great credit, the HVTN engaged in a massive and extremely transparent effort to investigate this outcome, involving both investigators affiliated with the network and the solicitation of input from external scientists with relevant expertise.

In the time since, a variety of investigations have been conducted but so far no causative mechanism has been identified to explain the STEP results. Unfortunately, along the way, some figures in leadership roles in the HIV vaccine field mistakenly attempted to suggest that the adenovirus vector had been absolved from having any role in enhancing HIV acquisition risk. For example, in 2009, Alan Bernstein (then head of the Global HIV/AIDS Vaccine Enterprise) had this to say to The Scientist:

"[This] result really rules out the possibility that it was the vaccine itself, and the fact that we used Adeno5, that was somehow increasing susceptibility to acquiring [HIV] in those volunteers."

The erroneousness of Bernstein’s public claim—and similar but less public assertions made by some scientists and policymakers in conference hallways—is highlighted by a new paper published in JAIDS. After many careful analyses, the researchers (from the HVTN and Merck) found that no potential confounder could account for the increased risk of HIV acquisition associated with receipt of the Ad5 vector. The HVTN has continued to be forthright about the issue, and it was these as-yet-unpublished analyses that led the network’s principal investigator Lawrence Corey to state in 2010:

“Even though we don’t have a mechanism [for Adeno5-mediated enhancement of HIV acquisition risk], we’re pretty sure this is a real biologic effect”

Continued efforts to understand the mechanism are important because while Merck’s Ad5-based HIV vaccine has been discontinued, adenovirus vectors from an array of different serotypes continue to be studied as potential vaccines against HIV, TB, malaria and hepatitis C, and it is currently uncertain if they might also have the potential to increase HIV acquisition risk.

The most commonly cited hypothesis to explain the STEP outcome was that the vaccine had boosted numbers of Ad5-specific CD4 T cells, thereby increasing the pool of cells potentially susceptible to HIV. But several papers have reported data that is inconsistent with this idea: blood levels of Ad5-specific CD4 T cells did not associate with acquisition risk, and these responses were also rapidly induced in study participants who lacked anti-Ad5 antibodies at baseline (yet these participants experienced no increase in risk). Another notion was that perhaps anti-Ad5 antibodies levels correlate with HIV risk for unknown reasons, but an analysis of the Multi-AIDS Center Cohort (MACS) study did not find an association, and this finding is echoed in a new Journal of Infectious Diseases paper looking at participants in several vaccine trials (abstract and link below). A study just published in PLoS One even finds the opposite: the inability of some STEP participants to make neutralizing antibodies against certain Ad5 components appeared to reflect generally weaker immunity and was associated with a greater risk of becoming HIV-infected independent of vaccination (abstract and link also below).

One remaining possibility that has yet to be thoroughly explored is that the STEP results related to something happening at the mucosal site of exposure, specifically the foreskin of the uncircumcised individuals that experienced the increased HIV acquisition risk. This idea is a subtle variant of the hypothesis related to Ad5-specific CD4 T cells. It is possible that Ad5 antibody titers in STEP were linked to the presence of persistent Ad5 infection, and that vaccination did not boost Ad5-specific CD4 T cell responses in blood but rather at mucosal sites of Ad5 antigen expression. One such site is known to be the gut, but because there are already huge numbers of CCR5-expressing CD4 T cells in that location it would be unlikely that a small additional influx would alter susceptibility to HIV (and this would be consistent with the risk associated with vaccination in STEP being seen in individuals reporting insertive anal intercourse but not receptive, as reported in the new JAIDS paper).

To the best of my knowledge, it is not known whether persistent Ad5 antigen expression can be detected in the foreskin, which would likely be a prerequisite for causing vaccine-boosted Ad5-specific CD4 T cell responses to traffic to—and be retained at—that site, potentially increasing susceptibilty to HIV. This type of scenario was suggested as a possible explanation of the STEP results by the research group of Steven Patterson in the discussion section of their PNAS paper in 2009, but still requires further investigation (there is one study that attempted to investigate the possibility in macaques, but because they are not susceptible to natural Ad5 the relevance of the results to humans is unclear). Of particular concern, CD4 T cells targeting adenoviruses cross-react with multiple serotypes (and simian adenoviruses), so the safety of vectors derived from variants other than Ad5 will remain uncertain until the issue is resolved.

JAIDS Journal of Acquired Immune Deficiency Syndromes:

POST ACCEPTANCE, 14 March 2012

doi: 10.1097/QAI.0b013e31825325aa

Sexual risk behaviors, circumcision status and pre-existing immunity to adenovirus type 5 among men who have sex with men participating in a randomized HIV-1 vaccine efficacy trial: Step Study

Koblin, Beryl A. PhD; Mayer, Kenneth H. MD; Noonan, Elizabeth MS; Wang, Ching-Yun PhD; Marmor, Michael PhD; Sanchez, Jorge MD, MPH; Brown, Stephen J. MD; Robertson, Michael N. MD; Buchbinder, Susan P. MD

Published Ahead-of-Print

Abstract

Background: The Step Study found that men who had sex with men (MSM) who received an adenovirus type 5 (Ad5) vector-based vaccine and were uncircumcised or had prior Ad5 immunity had a higher HIV incidence than MSM who received placebo. We investigated whether differences in HIV exposure, measured by reported sexual risk behaviors, may explain the increased risk.

Methods: Among 1,764 MSM in the trial, 724 were uncircumcised, 994 had prior Ad5 immunity and 560 were both uncircumcised and had prior Ad5 immunity. Analyses compared sexual risk behaviors and perceived treatment assignment among vaccine and placebo recipients, determined risk factors for HIV acquisition and examined the role of insertive anal intercourse in HIV risk among uncircumcised men.

Findings: Few sexual risk behaviors were significantly higher in vaccine vs. placebo recipients at baseline or during follow-up. Among uncircumcised men, vaccine recipients at baseline were more likely to report unprotected insertive anal intercourse with HIV negative partners (25.0% vs. 18.1%; p=0.03). Among uncircumcised men who had prior Ad5 immunity, vaccine recipients were more likely to report unprotected insertive anal intercourse with partners of unknown HIV status (46.0% vs. 37.5%; p=0.05). Vaccine recipients remained at higher risk of HIV infection compared to placebo recipients (HR =2.8; 95% CI:1.7, 6.8) controlling for potential confounders.

Interpretation: These analyses do not support a behavioral explanation for the increased HIV infection rates observed among uncircumcised men in the Step Study. Identifying biologic mechanisms to explain the increased risk is a priority.

J Infect Dis. (2012)

doi: 10.1093/infdis/jis285

First published online: April 5, 2012

Preexisting Adenovirus Seropositivity is Not Associated with Increased HIV-1 Acquisition in Three HIV-1 Vaccine Efficacy Trials

Kathryn E. Stephensona, John Huralb, Susan P. Buchbinderc, Faruk Sinangild and Dan H. Barouch*,a,e

aDivision of Vaccine Research, Beth Israel Deaconess Medical Center, Boston MA

bFred Hutchinson Cancer Research Center, Seattle, WA

cSan Francisco Department of Public Health, San Francisco, CA

dGlobal Solutions for Infectious Diseases, South San Francisco, CA

eRagon Institute of MGH, MIT, and Harvard, Boston MA

The Step study of a recombinant adenovirus serotype 5 (Ad5)-based HIV-1 vaccine revealed an increased risk of HIV-1 acquisition in vaccinees who were Ad5 seropositive at baseline. We therefore investigated whether preexisting Ad seropositivity to seven different Ad serotypes was associated with increased risk of HIV-1 infection in three HIV-1 vaccine efficacy trials. In a case-control study involving 1,570 adults enrolled in the VAX003 and VAX004 trials of a recombinant protein subunit HIV-1 vaccine and in the Step study, we observed that preexisting seropositivity to multiple Ad serotypes was not intrinsically associated with increased risk of HIV-1 acquisition.

PLoS ONE 7(4): e33969. doi:10.1371/journal.pone.0033969

Decreased Pre-existing Ad5 Capsid and Ad35 Neutralizing Antibodies Increase HIV-1 Infection Risk in the Step Trial Independent of Vaccination

Cheng Cheng1, LingShu Wang1, Jason G. D. Gall3, Martha Nason2, Richard M. Schwartz1, M. Juliana McElrath4,5, Steven C. DeRosa4,5, John Hural4,5, Lawrence Corey4,5, Susan P. Buchbinder5,6, Gary J. Nabel1

1 Vaccine Research Center, National Institute of Allergy and Infectious Diseases, National Insititutes of Health, Bethesda, Maryland, United States of America, 2 Biostatistics Research Branch, National Institute of Allergy and Infectious Disease, National Institutes of Health, Bethesda, Maryland, United States of America, 3 GenVec, Inc., Gaithersburg, Maryland, United States of America, 4 Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, Seattle, Washington, United States of America, 5 HIV Vaccine Trials Network, Seattle, Washington, United States of America, 6 HIV Research Section, San Francisco Department of Public Health, San Francisco, California, United States of America

Abstract

Background

The Step trial raised the possibility that uncircumcised men with pre-existing Ad5 neutralizing antibodies carried an increased risk of HIV infection after vaccination. Thus, understanding Ad seropositivity in humans is important to the development of an AIDS vaccine. Here, we analyze the impact of different Ad5-specific neutralizing antibodies on immune function and clinical outcome.

Methods and Findings

Ad seropositivity in the Step trial volunteers was analyzed using chimeric rAd5/35 vectors to characterize their specificity for Ad5 fiber and non-fiber external (capsid) proteins. Immune responses and HIV seropositivity were correlated with the specificity of Ad5-neutralizing antibodies. Neutralizing antibodies induced by the vaccine in Ad5 seronegative subjects were directed preferentially to Ad5 capsid proteins, although some fiber-neutralizing antibodies could be detected. Pre-vaccination Ad5 serostatus did not affect the capsid-directed response after three vaccinations. In contrast, anti-fiber antibody titers were significantly higher in volunteers who were Ad5 seropositive prior to vaccination. Those Ad5 seropositive subjects who generated anti-capsid responses showed a marked reduction in vaccine-induced CD8 responses. Unexpectedly, anti-vector immunity differed qualitatively in Ad5 seropositive participants who became HIV-1 infected compared to uninfected case controls; Ad5 seropositive participants who later acquired HIV had lower neutralizing antibodies to capsid. Moreover, Ad35 seropositivity was decreased in HIV-infected subjects compared with uninfected case controls, while seroprevalence for other serotypes including Ad14, Ad28 and Ad41 was similar in both groups.

Conclusions

Together, these findings suggest that the case subjects were less immunologically responsive prior to infection. Subjects infected during the Step trial had qualitative differences in immunity that increased their risk of HIV-1 infection independent of vaccination.

Adenovirus Vaccine Addendum: Chimp-Based Vector Shows Promise

Following on from the recent post about the promise and potential pitfalls of adenovirus-based vaccine vectors, an open access paper published on Tuesday in the Journal of Infectious Diseases reports data that appear to fall firmly on the promise side of the balance sheet. Researchers from the laboratory of Adrian Hill at the University of Oxford describe results of a phase I trial of a chimpanzee adenovirus type 63 (ChAd63) vector encoding malaria antigens, showing that the vaccine induced CD8 and CD4 T cell responses in all recipients. The magnitude of the responses (as measured by ELISPOT assays) was also impressive; the researchers note they were superior to those observed with Merck’s Ad5-based HIV vaccine candidate. Safety compared favorably to other adenovirus vectors.

Unlike the phase I trial of chimpanzee Ad3 as a hepatitis C vaccine covered in the prior post, which excluded anyone with antibody titers against the vector of >1:200, the malaria study enrolled a cohort of ten individuals with no restrictions on baseline titers of antibodies to the ChAd63 vector. The researchers analyzed this cohort and found no correlation between the presence of anti-vector antibodies at baseline and reduced vaccine immunogenicity. These results, while requiring confirmation in larger numbers of participants, suggest that pre-existing immunity to the ChAd63 vector may not be a problem. 

J Infect Dis. (2012) doi: 10.1093/infdis/jir850

First published online: January 24, 2012

Clinical Assessment of a Recombinant Simian Adenovirus ChAd63: A Potent New Vaccine Vector

Geraldine A. O'Hara1,a, Christopher J. A. Duncan1,a, Katie J. Ewer1,a, Katharine A. Collins1, Sean C. Elias1, Fenella D. Halstead1, Anna L. Goodman1, Nick J. Edwards1, Arturo Reyes-Sandoval1, Prudence Bird2, Rosalind Rowland1, Susanne H. Sheehy1, Ian D. Poulton1, Claire Hutchings1, Stephen Todryk1, Laura Andrews1, Antonella Folgori1, Eleanor Berrie2, Sarah Moyle2, Alfredo Nicosia3,4, Stefano Colloca3, Riccardo Cortese3,4, Loredana Siani3, Alison M. Lawrie1, Sarah C. Gilbert1 and Adrian V. S. Hill1

1Centre for Clinical Vaccinology and Tropical Medicine and the Jenner Institute Laboratories, University of Oxford

2Clinical BioManufacturing Facility, Nuffield Department of Clinical Medicine, Churchill Hospital, University of Oxford, Headington, United Kingdom

3Okairos AG, Rome

4CEINGE, Naples, Italy 

Abstract

Background. Vaccine development in human Plasmodium falciparum malaria has been hampered by the exceptionally high levels of CD8+ T cells required for efficacy. Use of potently immunogenic human adenoviruses as vaccine vectors could overcome this problem, but these are limited by preexisting immunity to human adenoviruses.

Methods. From 2007 to 2010, we undertook a phase I dose and route finding study of a new malaria vaccine, a replication-incompetent chimpanzee adenovirus 63 (ChAd63) encoding the preerythrocytic insert multiple epitope thrombospondin-related adhesion protein (ME-TRAP; n = 54 vaccinees) administered alone (n = 28) or with a modified vaccinia virus Ankara (MVA) ME-TRAP booster immunization 8 weeks later (n = 26). We observed an excellent safety profile. High levels of TRAP antigen–specific CD8+ and CD4+ T cells, as detected by interferon γ enzyme-linked immunospot assay and flow cytometry, were induced by intramuscular ChAd63 ME-TRAP immunization at doses of 5 × 1010 viral particles and above. Subsequent administration of MVA ME-TRAP boosted responses to exceptionally high levels, and responses were maintained for up to 30 months postvaccination.

Conclusions. The ChAd63 chimpanzee adenovirus vector appears safe and highly immunogenic, providing a viable alternative to human adenoviruses as vaccine vectors for human use.

The Promise and Pitfalls of Adenoviruses as Vaccine Vectors

A bevy of recently published papers address the use of adenoviruses as vaccine vectors, illuminating both the promise of the approach and some previously unappreciated pitfalls.  For the uninitiated, adenoviruses are a family of airborne viruses that are common in nature, causing severe colds. Family members are scientifically categorized into different serotypes based on the antibody (aka serological) response they induce in humans. Adenovirus serotype 5 (Ad5) is particularly common, and a vaccine vector based on an attenuated Ad5, developed by Merck, has already been tested as an HIV vaccine. Although Merck’s candidate succeeded in inducing CD8 T cell responses in a far greater proportion of recipients than any prior vector, in an efficacy study in gay men—named the STEP trial—it failed to protect against HIV infection and enhanced the risk of acquisition in a subset of participants (uncircumcised men with pre-existing antibodies against Ad5). While the explanation for the observed enhancement of acquisition risk remains uncertain, the STEP results led to the development of vaccine vectors based on adenovirus serotypes that are relatively rare compared to Ad5, in the hope that pre-existing antibody responses will not be a problem.

Studies involving these new rare adenovirus serotype vectors are the subject of several of the recent papers. In Science Translational Medicine, researchers describe results of a phase I trial that tested vectors based on human Ad6 and chimpanzee Ad3 as potential hepatitis C vaccines. The constructs successfully induced sustained and broadly targeted T cell responses against HCV antigens. However, individuals with high titers (>200) of antibodies that neutralized the vaccine vectors were excluded from the trial, and the paper does not state how many individuals were eliminated at screening. Larger trials without these exclusion criteria are needed to clarify the potential of these vectors. An accompanying paper in the same journal outlines the massive screening effort—involving analysis of over 1,000 adenovirus strains from chimpanzees—that led to the selection of chimpanzee Ad3 for use in the phase I trial.

A study published in Nature investigates the potential of two other rare adenovirus serotypes—Ad26 and Ad35—as HIV vaccine vectors, using the SIV/macaque model.  The paper reports on two experiments: in the first, five groups of eight macaques were given various combinations of Ad26, MVA (Modified vaccinia Ankara strain) and DNA vectors encoding Gag-Pol and Env antigens from SIV. Six months after the final immunization, animals were exposed to a low dose of the highly virulent challenge virus SIVmac251 once a week for a maximum of six weeks (or until infection was documented). After the first challenge, 75% of control macaques became infected compared to 12-25% of vaccine recipients. On average it required three challenges to infect 50% of the macaques receiving Ad26/MVA or MVA/Ad26 regimens, compared to the one challenge in the control group, a statistically significant difference. The researchers thus calculate that receipt of these regimens was associated with a significant reduction in “per exposure” risk of SIV acquisition. However, only one macaque (in the Ad26/MVA group) remained uninfected after all six challenges. In a second similar experiment, the effect of omitting the Env antigen was investigated. A total of 40 Macaques were divided into three groups: 16 received an Ad26/Ad35 prime-boost regimen encoding SIV Gag-Pol, 16 received the same vaccines encoding Gag-Pol and Env, and eight served as unimmunized controls. The results showed that the inclusion of Env was necessary to achieve the limited degree of protection obtained in the first experiment. Although not stated explicitly in the paper, the figures suggest that 3/16 macaques in the Gag-Pol and Env group remained uninfected after all six challenges. 

Antibodies to the V2 region of Env were found to correlate significantly with the protection observed in this study, echoing a recently reported analysis of correlates of immunity in the Thai HIV vaccine trial, although the researchers acknowledge that it is not yet known if these antibodies are contributing to inhibiting acquisition or serving as a marker for unknown protective mechanisms. There was also a statistical trend suggesting an association between SIV-specific CD8 T cell responses and protection but it did not reach the threshold for significance. Recipients of the prime-boost vaccine regimens demonstrated superior control of SIV replication after becoming infected; multiple measures of SIV-specific humoral and cell-mediated immunity correlated significantly with the viral load reductions in these animals.

The study findings suggest that even extremely neutralization-resistant viruses like SIVmac251 can be protected against, albeit to a limited extent. The researchers note that their results contrast with another recent study of a DNA/Ad5 vaccine combination that achieved no protection whatsoever against low-dose SIVmac251 challenges (in that case, most vaccine recipients became infected after one challenge, and all were infected after the third). However, the low-dose SIVmac251 challenge model is relatively new and so there is a lack of context that complicates interpretation of the data.

Potentially undermining both the HCV and SIV papers is a new analysis of STEP (and a related trial, HVTN 071) published in the Journal of Clinical Investigation. The study found that pre-existing CD4 T cell responses against the adenovirus vector were detectable in most trial participants at baseline, and were more common in those who also had pre-existing antibody responses against Ad5: “Circulating Ad-specific CD4 T cells were readily detectable in 54% of Ad5-seronegative placebo recipients and in 74% of Ad5-seropositive placebo recipients (P = 0.0004).” Furthermore, there was an inverse correlation between the magnitude of the Ad-specific CD4 T cell response and the T cell response to the HIV antigens included in the vaccine (the higher the baseline Ad-specific CD4 T cell response, the lower the vaccine-induced HIV-specific T cell responses). Because prior research has demonstrated that Ad-specific CD4 T cell responses can cross react with multiple serotypes (including chimpanzee Ad serotypes), the study authors state: “our work may have broad implications for the use of Ad vectors in HIV vaccines. We have shown that determining the impact of preexisting immunity for adenoviruses will not only need to involve study of serotype-specific nAb responses, but should also include analyses of cellular immune responses to other cross-reactive adenoviruses both within and outside the vector’s subgroup.”

The same concern applies to the use of Ad vectors as vaccines against other diseases. Although the HCV vaccine study in Science Translational Medicine did not find an association between baseline Ad-specific CD4 T cells and the magnitude of HCV-specific responses, only CD4 T cells targeting the adenovirus hexon protein were measured, whereas the authors of the JCI paper assessed responses against the entire Ad5 vector. Also, the exclusion from the HCV vaccine trial of individuals with high titers of antibodies against the vectors would have excluded some of the people most likely to have high levels of Ad-specific CD4 T cells.

In addition to the potential for Ad-specific CD4 T cells to reduce the immunogenicity of adenovirus-based vaccines, there also remains the unresolved issue of the enhanced risk of HIV acquisition observed among uncircumcised men with anti-Ad5 antibodies in the STEP trial. In the Journal of Virology, Chris Miller and colleagues report results of an animal model study that was designed to try and recapitulate STEP. In an attempt to mimic pre-existing immunity to Ad5 (which does not naturally infect macaques), the researchers exposed some animals to an Ad5 that has been mutated so it can cause transient infection in this species. Both exposed and unexposed macaques were then immunized with Ad5 vectors (either empty or containing SIV antigens), followed by challenges with gradually increasing doses of SIVmac251. The virus challenges were administered to anesthetized animals under the foreskin in an effort to mirror penile exposure. At the lowest SIVmac251 dose, two macaques in the group immunized with Ad5 containing SIV antigens became infected, a statistically significant difference compared with other groups (in which no infections occurred at the lowest dose). The researchers suggest that this may reflect an enhancement effect, and note that it was not seen with the empty Ad5 vector, suggesting a possible role for SIV-specific (rather than Ad-specific) immune responses. However, the authors also stress that the small numbers leave open the possibility that the result could have been due to chance. A larger confirmatory experiment is planned. 

Lastly, a paper published in PLoS One by Soumitra Roy and colleagues highlights an aspect of adenovirus biology that I’ve written about before on the blog: the previously underappreciated capacity of the virus to persist in humans. This feature of adenovirus infection cannot be modeled in macaques (in Chris Miller’s study, the mutant Ad5 used to infect animals became undetectable within a few weeks). Roy’s study looks at the gut, but from the perspective of the STEP results it will be important to find out if evidence of persistent adenovirus infection can be found in the mucosal cells of the foreskin. One hypothesis for the STEP outcome that has yet to be fully ruled out—despite some claims to the contrary—is that vaccination boosted the number of Ad-specific CD4 T cells responding to persistent adenovirus infection at sites of exposure to HIV, thereby increasing the number of HIV targets in a manner similar to that which has been described for HSV-2 infection and HSV-specific CD4 T cells. The authors of the PLoS paper have raised this possibility in prior work, although the concerns they articulated related to Ad-specific CD4 T cells interacting with adenovirus antigens in the gut;  this is unlikely to account for the STEP outcome because the enhanced risk of HIV acquisition was seen in uncircumcised insertive partners, not receptive. 

To try and summarize what is still a controversial and confusing issue: adenoviruses appear to still have promise as vaccine vectors, but the ability of rare serotypes to induce immune responses to vaccine-encoded antigens (whether from HIV, HCV, TB, malaria or any other pathogen) may not be as great as hoped due to the potential impact of pre-existing, cross-reactive Ad-specific CD4 T cell responses. The question of whether adenovirus vectors might enhance risk of HIV acquisition in some individuals is not yet entirely resolved, and more work is needed to understand how immunization with Ad vectors affects interactions between Ad-specific CD4 T cells and persistent adenovirus infections at potential sites of exposure to HIV.  

Sci Transl Med. 2012 Jan 4;4(115):115ra1.

Novel adenovirus-based vaccines induce broad and sustained T cell responses to HCV in man.

Barnes E, Folgori A, Capone S, Swadling L, Aston S, Kurioka A, Meyer J, Huddart R, Smith K, Townsend R, Brown A, Antrobus R, Ammendola V, Naddeo M, O'Hara G, Willberg C, Harrison A, Grazioli F, Esposito ML, Siani L, Traboni C, Oo Y, Adams D, Hill A, Colloca S, Nicosia A, Cortese R, Klenerman P.

Nuffield Department of Medicine, University of Oxford, Oxford OX1 3SY, UK.

Abstract

Currently, no vaccine exists for hepatitis C virus (HCV), a major pathogen thought to infect 170 million people globally. Many studies suggest that host T cell responses are critical for spontaneous resolution of disease, and preclinical studies have indicated a requirement for T cells in protection against challenge. We aimed to elicit HCV-specific T cells with the potential for protection using a recombinant adenoviral vector strategy in a phase 1 study of healthy human volunteers. Two adenoviral vectors expressing NS proteins from HCV genotype 1B were constructed based on rare serotypes [human adenovirus 6 (Ad6) and chimpanzee adenovirus 3 (ChAd3)]. Both vectors primed T cell responses against HCV proteins; these T cell responses targeted multiple proteins and were capable of recognizing heterologous strains (genotypes 1A and 3A). HCV-specific T cells consisted of both CD4(+) and CD8(+) T cell subsets; secreted interleukin-2, interferon-γ, and tumor necrosis factor-α; and could be sustained for at least a year after boosting with the heterologous adenoviral vector. Studies using major histocompatibility complex peptide tetramers revealed long-lived central and effector memory pools that retained polyfunctionality and proliferative capacity. These data indicate that an adenoviral vector strategy can induce sustained T cell responses of a magnitude and quality associated with protective immunity and open the way for studies of prophylactic and therapeutic vaccines for HCV.

Sci Transl Med. 2012 Jan 4;4(115):115ra2.

Vaccine vectors derived from a large collection of simian adenoviruses induce potent cellular immunity across multiple species.

Colloca S, Barnes E, Folgori A, Ammendola V, Capone S, Cirillo A, Siani L, Naddeo M, Grazioli F, Esposito ML, Ambrosio M, Sparacino A, Bartiromo M, Meola A, Smith K, Kurioka A, O'Hara GA, Ewer KJ, Anagnostou N, Bliss C, Hill AV, Traboni C, Klenerman P, Cortese R, Nicosia A.

Okairos, via dei Castelli Romani 22, 00040 Pomezia (Rome), Italy.

Abstract

Replication-defective adenovirus vectors based on human serotype 5 (Ad5) induce protective immune responses against diverse pathogens and cancer in animal models, as well as elicit robust and sustained cellular immunity in humans. However, most humans have neutralizing antibodies to Ad5, which can impair the immunological potency of such vaccines. Here, we show that rare serotypes of human adenoviruses, which should not be neutralized in most humans, are far less potent as vaccine vectors than Ad5 in mice and nonhuman primates, casting doubt on their potential efficacy in humans. To identify novel vaccine carriers suitable for vaccine delivery in humans, we isolated and sequenced more than 1000 adenovirus strains from chimpanzees (ChAd). Replication-defective vectors were generated from a subset of these ChAd serotypes and screened to determine whether they were neutralized by human sera and able to grow in human cell lines. We then ranked these ChAd vectors by immunological potency and found up to a thousandfold variation in potency for CD8(+) T cell induction in mice. These ChAd vectors were safe and immunologically potent in phase 1 clinical trials, thereby validating our screening approach. These data suggest that the ChAd vectors developed here represent a large collection of non-cross-reactive, potent vectors that may be exploited for the development of new vaccines.

Nature. 2012 Jan 4. doi: 10.1038/nature10766. [Epub ahead of print]

Vaccine protection against acquisition of neutralization-resistant SIV challenges in rhesus monkeys.

Barouch DH, Liu J, Li H, Maxfield LF, Abbink P, Lynch DM, Iampietro MJ, Sanmiguel A, Seaman MS, Ferrari G, Forthal DN, Ourmanov I, Hirsch VM, Carville A, Mansfield KG, Stablein D, Pau MG, Schuitemaker H, Sadoff JC, Billings EM, Rao M, Robb ML, Kim JH, Marovich MA, Goudsmit J, Michael NL.

1] Division of Vaccine Research, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Massachusetts 02215, USA [2] Ragon Institute of MGH, MIT, and Harvard, Boston, Massachusetts 02114, USA.

Abstract

Preclinical studies of human immunodeficiency virus type 1 (HIV-1) vaccine candidates have typically shown post-infection virological control, but protection against acquisition of infection has previously only been reported against neutralization-sensitive virus challenges. Here we demonstrate vaccine protection against acquisition of fully heterologous, neutralization-resistant simian immunodeficiency virus (SIV) challenges in rhesus monkeys. Adenovirus/poxvirus and adenovirus/adenovirus-vector-based vaccines expressing SIV(SME543) Gag, Pol and Env antigens resulted in an 80% or greater reduction in the per-exposure probability of infection against repetitive, intrarectal SIV(MAC251) challenges in rhesus monkeys. Protection against acquisition of infection showed distinct immunological correlates compared with post-infection virological control and required the inclusion of Env in the vaccine regimen. These data demonstrate the proof-of-concept that optimized HIV-1 vaccine candidates can block acquisition of stringent, heterologous, neutralization-resistant virus challenges in rhesus monkeys.

Clin Invest. doi:10.1172/JCI60202.

Research Article

Human adenovirus-specific T cells modulate HIV-specific T cell responses to an Ad5-vectored HIV-1 vaccine

Nicole Frahm1,2, Allan C. DeCamp1, David P. Friedrich1, Donald K. Carter1, Olivier D. Defawe1, James G. Kublin1, Danilo R. Casimiro3, Ann Duerr1, Michael N. Robertson3, Susan P. Buchbinder4, Yunda Huang1, Gregory A. Spies1, Stephen C. De Rosa1,5 and M. Juliana McElrath1,2,5,6

1Vaccine and Infectious Disease Division and the HIV Vaccine Trials Network, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA.

2Department of Global Health, University of Washington, Seattle, Washington, USA.

3Merck Research Laboratories, West Point, Pennsylvania, USA.

4HIV Research Section, San Francisco Department of Public Health, San Francisco, California, USA.

5Department of Laboratory Medicine and

6Department of Medicine, University of Washington, Seattle, Washington, USA.

Recombinant viruses hold promise as vectors for vaccines to prevent infectious diseases with significant global health impacts. One of their major limitations is that preexisting anti-vector neutralizing antibodies can reduce T cell responses to the insert antigens; however, the impact of vector-specific cellular immunity on subsequent insert-specific T cell responses has not been assessed in humans. Here, we have identified and compared adenovirus-specific and HIV-specific T cell responses in subjects participating in two HIV-1 vaccine trials using a vaccine vectored by adenovirus serotype 5 (Ad5). Higher frequencies of pre-immunization adenovirus-specific CD4+ T cells were associated with substantially decreased magnitude of HIV-specific CD4+ T cell responses and decreased breadth of HIV-specific CD8+ T cell responses in vaccine recipients, independent of type-specific preexisting Ad5-specific neutralizing antibody titers. Further, epitopes recognized by adenovirus-specific T cells were commonly conserved across many adenovirus serotypes, suggesting that cross-reactivity of preexisting adenovirus-specific T cells can extend to adenovirus vectors derived from rare serotypes. These findings provide what we believe to be a new understanding of how preexisting viral immunity may impact the efficacy of vaccines under current evaluation for prevention of HIV, tuberculosis, and malaria.

Journal of Virology. First published December 2011, doi: 10.1128/​JVI.06175-11

Low dose penile SIVmac251 exposure of rhesus macaques infected with adenovirus 5 then immunized with a replication defective Ad5-based SIV gag/pol/nef vaccine recapitulates the results of the Phase IIb Step trial of a similar HIV-1 vaccine.

Huma Qureshi1,2, Zhong-Min Ma1,2, Ying Huang3, Gregory Hodge2, Michael A. Thomas4, Janet DiPasquale4, Veronique DeSilva1,2, Linda Fritts1,2, Andrew J. Bett5, Danilo R. Casimiro5, John W. Shiver5, Marjorie Robert-Guroff4, Michael N. Robertson5, Michael B. McChesney2, Peter B. Gilbert3 and Christopher J. Miller1,2↴

1 Center for Comparative Medicine

2 California National Primate Research Center, University of California, Davis, California 95616

3 SCHARP, Statistical Center for HIV/AIDS Research and Prevention, Fred Hutchinson Cancer Research Center, Seattle, Washington

4 Vaccine Branch, NCI, NIH, Bethesda, MD

5 Merck Research Laboratories, West Point, PA

ABSTRACT

The Step trial showed that the MRKAd5 HIV-1 subtype B Gag-Pol-Nef vaccine did not protect men from HIV infection or reduce setpoint plasma vRNA levels but, unexpectedly, it did modestly enhance susceptibility to HIV infection in Ad5-seropositive, uncircumcised men. As part of the process to understand the results of the Step Trial, we designed a study to determine if rhesus macaques chronically infected with a host range mutant adenovirus type-5 (Ad5hr) and then immunized with a replication defective Ad5 SIVmac239 Gag-Pol-Nef vaccine were more resistant or susceptible to SIV infection than unimmunized rhesus macaques challenged with a series of escalating dose penile exposures to SIVmac 251. The Ad5 SIV vaccine induced CD8+T cell responses in approximately 70% monkeys, which is similar to the proportion of humans that responded to the vaccine in the Step trial. However, the vaccine did not protect vaccinated animals from penile SIV challenge. At the lowest SIV exposure dose (103 TCID50), 2 of 9 Ad5 seropositive animals immunized with the Ad5 SIV vaccine became infected compared to 0 of 34 animals infected in the other animal groups (naïve animals, Ad5 seropositive animals immunized with the empty Ad5 vector, Ad5 seronegative animals immunized with the Ad5 SIV vaccine and Ad5 seronegative animals immunized with the empty Ad5 vector). Penile exposure to more concentrated virus inoculums produced similar rates of infection in all animals groups. Although setpoint viral loads were unaffected in Step vaccinees, the Ad5 SIV immunized animals had significantly lower acute phase plasma vRNA levels compared to unimmunized animals. Thus, the results of the NHP study described here recapitulate the lack of protection against HIV acquisition seen in the Step trial and suggest a greater risk of infection in the Ad5 seropositive animals immunized with the Ad5 SIV vaccine. Further studies are necessary to confirm enhancement of virus acquisition and discern associated mechanisms.

PLoS ONE 6(9): e24859. doi:10.1371/journal.pone.0024859

Adenoviruses in Lymphocytes of the Human Gastro-Intestinal Tract

Soumitra Roy, Roberto Calcedo, Angelica Medina-Jaszek, Martin Keough, Hui Peng, James M. Wilson

Gene Therapy Program, Department of Pathology and Laboratory Medicine, Division of Transfusion Medicine, University of Pennsylvania, Philadelphia, Pennsylvania, United States of America

Abstract

Objective

Persistent adenoviral shedding in stools is known to occur past convalescence following acute adenoviral infections. We wished to establish the frequency with which adenoviruses may colonize the gut in normal human subjects.

Methods

The presence of adenoviral DNA in intestinal specimens obtained at surgery or autopsy was tested using a nested PCR method. The amplified adenoviral DNA sequences were compared to each other and to known adenoviral species. Lamina propria lymphocytes (LPLs) were isolated from the specimens and the adenoviral copy numbers in the CD4+ and CD8+ fractions were determined by quantitative PCR. Adenoviral gene expression was tested by amplification of adenoviral mRNA.

Results

Intestinal tissue from 21 of 58 donors and LPLs from 21 of 24 donors were positive for the presence of adenoviral DNA. The majority of the sequences could be assigned to adenoviral species E, although species B and C sequences were also common. Multiple sequences were often present in the same sample. Forty-one non-identical sequences were identified from 39 different tissue donors. Quantitative PCR for adenoviral DNA in CD4+ and CD8+ fractions of LPLs showed adenoviral DNA to be present in both cell types and ranged from a few hundred to several million copies per million cells on average. Active adenoviral gene expression as evidenced by the presence of adenoviral messenger RNA in intestinal lymphocytes was demonstrated in 9 of the 11 donors tested.

Conclusion

Adenoviral DNA is highly prevalent in lymphocytes from the gastro-intestinal tract indicating that adenoviruses may be part of the normal gut flora.

Abstracts from the AIDS Vaccine 2011 Conference

The abstract book from the AIDS Vaccine 2011 conference, which took place last week in Bangkok, is now available free online via the journal AIDS Research & Human Retroviruses.

Appended below is a highly subjective selection of highlights, including new data on the role of CD4 T cell responses in control of HIV, an intriguing study linking the nucleotide composition of lentiviruses to their pathogenicity, and results from animal modelers attempting to recapitulate both the recent RV144 vaccine trial in Thailand and the STEP trial of Merck’s now-discontinued HIV vaccine candidate. Links to e-Posters are included if they are available on the conference website. 

OA01.03

Titered Mucosal Challenge of Rhesus Macaques with SIVmac251 Recapitulates HIV Vaccine Efficacy in Humans

G. Franchini1, P. Pegu1, M. Vaccari1, S. Gordon1, B. Keele2, M. Doster1, Y. Guan3, G. Ferrari4, D. Montefiori4, D. Venzon5, C. Fenizia1, J. Lifson6, N. Michael7, J. Kim7, J. Tartaglia8

1NCI/NIH, Bethesda, USA; 2AIDS and Cancer Virus Program NCI- Frederick, USA; 3Human Monoclonal Antibody Core Laboratory, University of Maryland, USA; 4Duke University Medical Center, Durham, USA; 5Biostatistics and Data Management Section, NCI/ NIH, USA; 6Human Retrovirus Section, NCI/NIH, USA; 7Walter Reed Army Institute of Research, USA; 8Sanofi Pasteur, Inc, USA

Background: A combination vaccine based on the recombinant canarypox vector ALVAC-HIV and HIV gp120 envelope glycoprotein protected nearly one third of vaccinees from HIV acquisition but afforded no protection from CD4+ T-cell loss or high virus levels in vaccines that became infected in the RV144 trial in Thailand. This result was surprising, given the limited ability of either vaccine component to induce CD8+ T-cell responses or elicit broadly neutralizing antibodies. An animal model able to predict HIV vaccine efficacy for humans could hasten progress in our understanding of the immune responses that contribute to protection.

Methods: We vaccinated Indian rhesus macaques with an ALVAC-SIV and SIVgp120 immunization regimen that mimics the RV144 trial. At the end of the immunization regimen, the vaccinated animals received a titered mucosal challenge with a dose of SIVmac251 shown to transmit a limited number of variants to naive controls, recapitulating human mucosal HIV transmission.

Results: Vaccine immunogenicity and efficacy in macaques were similar to observations in humans; as in RV144, one third of vaccinated macaques were protected from acquisition SIVmac251. Viral load and CD4+ T cell numbers in animals that did become infected were not different from controls. Animals protected from infection had equivalent T-cell responses but higher avidity binding antibodies to gp120 compared to unprotected animals.

Conclusion: Titered intrarectal challenge of macaques with SIVmac251 shows potential to accurately model clinically observed vaccine efficacy, suggesting a role for this model in understanding protective responses elicited by HIV preventive vaccines. Consistent with the results from RV144, our findings suggest non- neutralizing antibody responses may play a role in protection from SIV/HIV acquisition.

OA05.01

HIV-Specific Cytolytic CD4+ T-Cell Responses During Acute HIV-1 Infection Predict Disease Outcome

D.Z. Soghoian1, H. Jessen2, S. Cutler1, M. Flanders1, S. Ranasinghe1, M. Lindqvist1, I. Davis1, K. Lane1, J. Rychert3, E.S. Rosenberg3, B.D. Walker1, H. Streeck1

1Ragon Institute of MGH, MIT, and Harvard, Charlestown, USA; 2Praxis Jessen Jessen Stein, Berlin, Germany; 3Infectious Disease Division, Massachusetts General Hospital, Boston, USA

Background: During acute HIV-1 infection, early control of vi- remia and establishment of viral set point have been widely attributed to HIV-specific CD8 T-cell responses. However, despite increasing evidence for direct antiviral activity by CD4 T-cells in other infections, the impact of HIV-specific CD4 T-cells on viral control has not been studied.

Methods: We studied 26 acutely infected, treatment-naive subjects and monitored their clinical outcome for up to 3 years post- infection. Baseline HIV-specific CD4 T-cell responses were assessed for degranulation (CD107a), IFNc secretion, expression of granzymes (GrzA,B,K) and perforin. HIV-specific cytolytic CD4 T-cell responses were investigated longitudinally in a subset of 11 subjects with similar peak viral loads for 1 year post-infection.

Results: Among the patients followed longitudinally, 6 progressed to a low viral set point, while 5 progressed to a significantly higher set point (134,020 vs. 11,234 copies/ml; p = 0.004). Interestingly, a significant expansion of HIV-specific cytolytic CD4 cell responses was observed in individuals who controlled viral replication compared to those who progressed to a high viral set point (IFNg: p = 0.038, CD107a: p = 0.042). Importantly, this expansion was observed early post-infection, prior to the divergence of viral load or CD4 T cell counts between the two groups. Examination of the baseline HIV-specific CD4 responses revealed a distinct GrzA-enriched cytolytic phenotype that was highly associated with subsequent viral control. Strikingly, Kaplan-Meier analysis of only the baseline cytolytic CD4 T-cell response in a larger cohort demonstrated that individuals with HIV-specific GrzA+ responses remained off HAART significantly longer than individuals with HIV-specific GrzA-responses (p = 0.0023).

Conclusion: Here we demonstrate that the rapid induction and expansion of a distinct cytolytic CD4 T-cell response during acute infection is significantly associated with viral control and disease outcome. These data suggest a pivotal role for HIV-specific cytolytic CD4 T-cells in the early control of viremia following acute infection and for future HIV vaccine design strategies.

P17.32 LB

Primary Immune Responses to Vaccinia Virus Vaccination: The Role of Cytotoxic Effector CD4+ T Cells in the Generation of Human T Cell Memory

C.M. Munier1, S. Ip1, M. Bailey1, Y. Xu1, S. Liu2, D.A. Cooper1, S.J. Kent3, J.J. Zaunders4, A.D. Kelleher1

1The Kirby Institute and St Vincent’s Centre for Applied Medical Research, Sydney, Australia; 2The Garvan Institute, Sydney, Australia; 3The University of Melbourne, Melbourne, Australia; 4St Vincent’s Centre for Applied Medical Research, Sydney, Australia

Background: To understand the developmental stages of CD4+ T cell responses to viral infection and their differentiation into long-term memory cells, we studied individuals receiving primary vaccinia virus (VV) vaccination. This provides an attractive model for the study of human antiviral T cell responses as vaccination results in an acute infection that is cleared and leads to long-term protective immunity.

Methods: At the peak of the primary effector cell response to VV, day 13 post-vaccination, we purified activated effector (CD45RO+ CD38+++) and naive (CD45RO-CD38dim) CD4+ T cells from 2 subjects, extracted mRNA and conducted microarray analysis using the Affymetrix, HU133 Plus 2.0 microarray.

Results: In the activated effector CD4+ compared to naive CD4+ T cells many of the genes up-regulated were associated with cell division and activation, such as Ki-67, CD38 and CCR5, as expected, hence validating the arrays. Surprisingly, there was a strong up-regulation of cytotoxic T-lymphocyte (CTL) associated genes in the activated effector CD4+ T cells. Of the top 40 differentially expressed genes granzyme K ranked 1st with fold change (fc) of 40 compared to naive CD4+ T cells. Killer cell lectin-like receptor subfamily B member 1 (KLRB1/CD161):4th (fc:26.3), Rab27a:19th (fc:8.2), granzyme A:26th (fc:13.9) and granulysin:36th (fc:7.9). These fold changes are being validated by qPCR. Preliminary analysis at 13 days post vaccination with VV revealed >10% of activated VV-specific CD4+ T cells and >50% of activated CD8+ T cells expressed granzyme K.

Conclusion: Generation of anti-viral human CD4+ T cell memory during primary immune responses is poorly understood. The role of CTL associated genes in this process has not been explored. Understanding their role in the generation of an effective memory may lead us closer to the development of a more effective HIV vaccine, such as enhancing the modestly efficacious HIV-1 vaccine used in the RV144 study.

OA07.05

Induction of Neutralizing Antibody Responses in HIV Infection Is Associated with HIV-Specific CD4 T Cell Responses

M. Mueller1, M. Lindqvist1, D. Soghoian1, S. Ranasinghe1, T. Wrin2, P. Phung3, S. Deeks4, C. Pilcher4, F. Hecht4, H. Streeck1

1Ragon Institute of MGH, MIT and Harvard, Somerville, USA; 2Monogram Biosciences, San Francisco, USA; 3Monogram Bioscinces, San Francisco, USA; 4University of California, San Francisco, USA

Background: One of the foremost challenges in the development of an HIV-1 vaccine is that HIV-1 targets CD4-T cells, which are critically important in shaping the immune response to infection. It has been demonstrated that T follicular helper (TFH) CD4-T cells are pivotal for the induction of broadly neutralizing antibody (nAb) responses and for the generation of long-lived B-cell memory maturation. By cognate interaction and cytokine secretion, CD4-T cells expressing CD40L can induce class switching and somatic hypermutation in antigen specific B-cells, which is reflected in the expression of activation-induced cytidine deaminase (AID). Nonetheless, the role of TFH cells and their interaction with B-cells in HIV infection is currently unknown.

Methods: Ten subjects were identified during acute HIV infection and followed longitudinally over a median of three years. Neutralizing activity of plasma antibodies against a panel of present and past autologous and heterologous viruses was assessed using a single-replication cycle assay in which full-length envelope genes were incorporated into expression vectors (Monogram Biosciences). Phenotypic and functional characteristics of HIV-specific CD4-T cell responses and their impact on AID expression were assessed longitudinally by multiparameter flow cytometry.

Results: The breadth of the broadly neutralizing antibody response to heterologous HIV significantly increased over time in each patient. Interestingly, the expansion in heterologous breadth was not only significantly correlated with an increase in AID expression in B-cells, but also with CD4-T cell expression of PD-1, a marker that has been associated with TFH cells. Moreover, a positive association between AID expression and gp120-specific CD40L-responses was detected at the earliest time point.

Conclusion: Our data strongly indicate that the induction of broadly neutralizing antibody responses is linked to the function and activation of HIV-specific CD4-T cell responses. These findings will be pivotal in efforts to generate neutralizing antibody responses by vaccination strategies.

OA08.01

Evidence for CD4 T-Cell Mediated Immune Control of Macrophage Infection in Rhesus Macaques Undergoing CD4+ Lymphocyte Depletion Prior to SIV Infection

A. Ortiz1, B. Li1, N.R. Klatt2, B. Lawson1, E. Ryzhova3, P. Carnathan1, M. Paiardini1, J. Else1, F. Gonzalez-Scarano4, S.J. Ratcliffe5, J. Brenchley2, J. Estes6, C. Derdeyn1, G. Silvestri1

1Emory University, Atlanta, USA; 2Laboratory of Molecular Microbiology, National Institutes of Health, Bethesda, USA; 3Department of Neurology, University of Pennsylvania School of Medicine, Philadelphia, USA; 4School of Medicine, UT Health Science Center at San Antonio, San Antonio, USA; 5Department of Biostatistics, University of Pennsylvania, Philadelphia, USA; 6The AIDS and Cancer Virus Program, The National Cancer Institute, Frederick, USA

Background: The relative contribution of CD4+ T-cells to the control of virus replication during primary SIV infection rhesus macaques (RM) remains incompletely defined. To investigate the relationship between CD4+ T-cells and post-peak decline of viremia, we depleted CD4+ lymphocytes from non- inductive immunological sites of five RMs prior to SIV-infection.

Methods: Nine RMs were infected intravenously with SIVmac251. Prior to infection, five RMs were CD4+ lymphocyte-depleted using the Cdf OKT4A HulgG1 Ab. Samples were collected longitudinally from blood, bone marrow, lymph nodes (LNs), and rectal biopsies (RBs). Plasma SIV viremia and cell-associated SIV-DNA were measured by RT-PCR. Cell-associated vRNA in tissues was assessed by dual immunohistochemistry and in situ hybridization. Immune function parameters were measured by multi-color flow cytometry, neutralization assays and ex vivo stimulation assays.

Results: At the time of infection, CD4+ lymphocyte-depleted RM showed ten-fold lower CD4+ T cell levels in blood and LNs and normal CD4 + T-cell levels in RBs. After infection, CD4+ lymphocyte-depleted animals exhibited a similar peak of viremia but, in contrast to non-depleted RMs, showed no post-peak virus decline, and progressed more rapidly to AIDS. Importantly, no significant differences were found between depleted and undepleted RMs in terms of (i) availability of target cells; (ii) levels of SIV-specific CD8+ T cell responses; and (iii) SIV-specific humoral responses. Interestingly, peak viral load in depleted animals was associated with a striking increase in virus production by macrophages and dendritic cells.

Conclusion: These data indicate an essential role for CD4+ T-cells in mediating post-peak decline of viremia in SIV-infected RMs that may be associated with an ability to suppress virus production by macrophages. The complex balance between CD4+ T-cells as target cells and immune effectors may play a greater than anticipated role in the outcome of vaccine efficacy and should be considered during future vaccine design.

OA08.02

CD4+ T Cell Escape in a SIVmac239-Infected Indian Rhesus Macaque Elite Controller with Breakthrough Viremia

J. Giraldo-Vela1, F.A. Norante1, A.T. Bean1, E.J. Leon2, R. Rudersdorf1, N.A. Wilson1, D.I. Watkins1, J.B. Sacha2

1University of Wisconsin, Madison, Madison, USA; 2Oregon Health & Science University, Beaverton, USA

Background: The role of CD8+ T cells in containment of retroviral infections is well documented by studies of CD8+ T cell- mediated viral escape. It contrast, the immunological role of retrovirus-specific CD4+ T cells remains unclear, particularly in the setting of elite control. Here, we describe viral escape from CD4+ T cells concomitant with viral breakthrough and loss of elite control.

Methods: A SIVmac239-infected Indian rhesus macaque maintaining elite control of viremia (<1,000 vRNA copies/mL plasma) spontaneously lost control, experienced breakthrough viremia, and eventually succumbed to AIDS. We performed whole genome sequencing on plasma virus prior to the virus becoming undetectable and immediately following breakthrough and loss of elite control. We then investigated the T cell response directed against areas in the viral proteome exhibiting sequence divergence between the pre- and post-breakthrough time points.

Results: Comparison of the pre- and post-breakthrough viral sequences revealed surprisingly few amino acid substitutions post-breakthrough. These substitutions occurred within two previously defined and three previously undescribed CD8+ T cell epitopes, confirming the critical role of CD8+ T cells in control of viral replication. Interestingly, we identified two mutations within Gag, V63A and D205E, which occurred within CD4+ T cell epitopes. Both of these mutations abrogated CD4+ T cell recognition. While the V63A mutation also abrogated recognition of an overlapping CD8+ T cell epitope, the D205E mutation was solely targeted by a CD4+ T cell response. We confirmed that no CD8+ T cell responses were targeting this region. Finally, we demonstrated that viruses bearing the GagD205E mutation escaped CD4+ T cell effector function in vitro.

Conclusion: Virus-specific CD4+ T cells play an active role in the containment of retroviruses and are likely essential for the maintenance of low-level viremia. How these CD4+ T cells persist and exert their anti-viral function during retroviral infection remains unclear and warrants further investigation.

OA08.06

Cytotoxicity Capacity of SIV-Specific CD8+ T Cells Against Primary Autologous Targets Correlates with Immune Control in SIV-Infected Rhesus Macaques

D. Mendoza1, S. Johnson1, B. Peterson1, N. Doria-Rose1, G. Franchini2, D. Schneider3, M.T. Trivett3, C.M. Trubey3, V. Coalter3, D.I. Watkins4, J.D. Lifson3, S.A. Migueles1, M. Connors1

1NIAID/NIH, Chevy Chase, USA; 2Vaccine Branch, NCI/NIH, Bethesda, USA; 3AIDS and Cancer Virus Program, SAIC-Frederick, Inc., Frederick, USA; 4Pathology and Laboratory Medicine, University of Wisconsin-Madison, Madison, USA

Background: HIV-specific CD8+ T cells of long-term non-progressors/elite controllers (LTNP/EC) exhibit extraordinary per-cell cytotoxic capacity against HIV-infected CD4+ T cells, in contrast to those of progressors. In this study, we explore whether our previous findings can be extended to the SIV-rhesus macaque (RM) model by measuring SIV-specific cytotoxic capacity of CD8+ T cells against SIV-infected targets.

Methods: Cytotoxicity and IFN-g production of SIV-specific CD8+ T cells were examined following 6-day incubation with autologous SIVmac251-infected telomerase-transduced CD4+ T cell clone targets. SIV-specific CD8+ T cell cytotoxic responses were measured at 1 hour by flow cytometric detection of active granzyme (Gr) B delivery to live targets and infected CD4 elimination (ICE).

Results: Fifteen SIV-infected RM with different extents of control of viral replication have been evaluated. Data collection is ongoing with laboratory personnel blinded to RM disease status. LTNP/EC RM had higher median delivery of active GrB to tar- gets (43.5% vs. 18.5%, p=0.04), and higher median ICE than progressors (67.3% vs. 24.4%, p = 0.009). There was a significant correlation between ICE and viral load (R = -0.55, p = 0.03), and between GrB delivery and ICE (R = 0.86, p <0.0001).

Conclusion: Lytic granule loading of CD8+ T cells and efficient delivery of active GrB to SIV-infected targets are associated with control of SIV infection in rhesus macaques, consistent with observations of HIV infection in humans. These findings suggest ICE is a correlate of control of viral replication in chronic SIV infection. They also suggest the use of cytotoxic capacity as a predictor of immunologic control in the vaccine setting should be tested.

OA09.02

ADCC Titers to HIV-Infected Cells Are Detectable in the Majority of Vaccine Recipients in the RV144 Trial

M.D. Alpert7, J.D. Harvey7, W.J. Neidermyer7, Y. Huang1, D. Morris1, L. Harris1, H. Gao2, D.C. Montefiori2, P. Pitisuttithum3, J. Kaewkungwal3, S. Nitayaphan4, S. Rerks- Ngarm5, N.L. Michael6, J.H. Kim6, D.T. Evans7

1SCHARP, Fred Hutchinson Cancer Research Center, Seattle, USA; 2Duke University Medical Center, Durham, USA; 3Mahidol University, Bangkok, Thailand; 4Armed Forces Research Institute of Medical Sciences, Bangkok, Thailand; 5Ministry of Public Health, Nonthaburi, Thailand; 6Walter Reed Army Institute of Research, USMHRP, Rockville, USA; 7Harvard Medical School, Southborough, USA

Background: A modest reduction in the rate of HIV-1 infection was observed among vaccine recipients in the RV144 trial who received a prime-boost vaccine regimen with recombinant canarypox and soluble gp120. Whereas virus-specific CD8+ T cell responses were largely undetectable, antibodies capable of binding to gp120 were detectable in nearly all vaccinated subjects. However, these antibodies were unable to neutralize primary HIV-1 isolates, suggesting that antibodies may have contributed to protection by non-neutralizing effector mechanisms.

Methods: To determine if vaccinated subjects made antibodies capable of directing antibody-dependent cell-mediated cytotoxicity (ADCC), we used a novel assay to measure ADCC titers against HIV-infected cells in pilot samples from the RV144 trial. This assay is based on the killing of an HIV-infected CD4+ T cell line by a CD16+ NK cell line in the presence of serial dilutions of plasma, thus allowing ADCC titers to be measured against virus infected cells expressing the native, oligomeric conformation of the HIV-1 envelope glycoprotein. Using this approach, ADCC titers in blinded plasma samples from 80 vaccine recipients and 20 placebo controls were measured at baseline (week 0) and at two weeks after the last boost (week 26) against target cells infected with the HIV-1 subtype AE isolate 92TH023.

Results: Comparison of the response rate for the vaccine group versus the placebo group revealed that 76.2% (61/80; 95% CI 66%, 84%) of the vaccinated subjects versus 10.0% (2/20; 95% CI 3%, 30%) of the placebo controls had detectable ADCC titers against HIV-1 92TH023 infected cells at week 26 (Fisher’s exact test, P = 6.7e-8). ADCC titers were also significantly higher at week 26 than at week 0 among the vaccine recipients (McNemar’s exact p-value, P = 3.9e-12).

Conclusion: These results demonstrate that the majority of vaccinated subjects in the RV144 trial made antibodies capable of directing ADCC against HIV-infected cells.

P01.06

Whole Blood Transcriptional Monitoring of Acute HIV-1 Infection Reveals Differential Signatures of Host Immune Activation

J.A. Skinner1, N. Baldwin1, M. Sharma2, B. Lemoine1, D. Blankenship3, H. Qin3, Z. Xu1, E.B. DeVol3, V. Pascual1, A. Mejias4, O. Ramilo4, R. Pankla5, G. Lertmemongkolchai6, M. Berry7, A. O’Garra7, K. Palucka1, R. Thiebaut8, G. Chene8, M. Cohen9, K. Soderberg10, T.N. Denny10, A. McMichael11, B.F. Haynes10, Y. Levy12, J. Banchereau1, D. Chaussabel1, N. Vaccine Immunology1

1Baylor Institute for Immunology Research, Dallas, USA; 2Ba, USA; 3Baylor Institute for Health Care Research and Improvement, Dallas, USA; 4Nationwide Children’s Hospital Center for Vaccines and Immunity, Columbus, USA; 5Department of Medical Technology, Naresuan University, Phitsanulok, Thailand; 6Department of Clinical Immunology, Khon Kaen University, Khon Kaen, Thailand; 7MRC National Institute for Medical Research, London, England; 8INSERM U897, Bordeaux, France; 9University of North Carolina at Chapel Hill, Chapel Hill, USA; 10Duke University School of Medicine, Durham, USA; 11Weatherall Institute of Molecular Medicine, John Radcliffe Hospital, Oxford, England; 12Henri Mondor Hospital- ANRS, Creteil, France

Background: Genome-wide transcriptional studies in non-human primates have suggested that the quality and magnitude of early immune responses to SIV infection are associated with downstream disease progression. The aim of this study is to identify, monitor, and interpret the whole blood transcriptional signature of acute HIV-1 infection (AHI).

Methods: A total of 56 AHI patients and matching healthy controls from both Africa and the United States were distributed into training, test, and validation datasets. Whole blood from these subjects was obtained for transcriptional profiling using microarrays. Both gene and modular transcriptional framework analyses were utilized to interpret the signature of AHI and for comparisons with other disease signatures including: influenza, tuberculosis, sepsis, and chronic HIV following interruption of anti-retroviral therapy (ART). Additional samples were collected at 1, 2, 4, 12, and 24 weeks post-enrollment for training and test set AHI subjects, to establish the longevity of the signature in the presence or absence therapy.

Results: We identified a robust AHI signature with increased activity in: interferon, cell cycle, cytotoxic, plasma cell, and B-cell modules amongst others. This activity was unique when compared to signatures obtained from patients with other infections. Only interferon and cell cycle activity was observed in both AHI subjects and chronically infected patients following interruption of therapy. Notably, 20% of AHI patients were observed to express a quiescent signature that clustered independent of the highly active signature described above. We found that these patients had significantly lower viral set-points (p = 0.01) when compared to patients with the active signature. Finally, longitudinal analysis demonstrated that the active AHI signature can persist independent of viral load in ART treated patients and up to 6 months in the absence of therapy.

Conclusion: Transcriptional monitoring of early HIV infection offers both quantitative and qualitative assessments patient responses that may be predictive of long-term disease progression.

P09.12

Correlation Between AIDS Pathology and the Biased Nucleotide Composition of Lentiviruses

N. Vabret1, M. Bailly-Bechet2, A. Lepelley1, V. Najburg1, M. Mu ̈ller-Trutwin1, O. Schwartz1, B. Verrier3, F. Tangy1

1Institut Pasteur, Paris, France; 2Universite ́ Lyon I, Lyon, France; 3IBCP, Lyon, France

Background: AIDS results from generalized immune activation after years of chronic HIV replication. However, most African primate species naturally infected with lentiviruses remain healthy. Addressing this issue is crucial for understanding AIDS pathogenesis. Because the genomes of lentiviruses present a particularly biased nucleotide composition compared to that of their primate hosts, we wondered whether host recognition of biased viral nucleic acids could induce hyper-responsiveness to HIV and AIDS pathogenesis.

Methods: We compared the nucleotide composition (A/C/G/T frequencies) of pathogenic and non-pathogenic primate lentiviruses with that of their hosts for every infection described in the literature. We measured the nucleotide divergence by computing the Chi-2 distance between the A/C/G/T frequencies in the complete viral sequence and the coding sequences of each host organism.

Results: We found that primate lentiviruses having the most divergent nucleotide composition compared to their hosts induce AIDS, whereas less divergent lentiviruses cause non-pathogenic infections. Similarly, the relative pathogenicity of HIV-1 subtypes correlates with their nucleotide divergence to the human genome.

To understand this observation at a molecular level, we investigated the ability of HIV-1 RNA fragments to stimulate in vitro the synthesis of type I interferon (IFN-I). We found that the nucleotide divergence of RNA fragments strongly correlates with type-I IFN activity. Based on these observations, we designed a large-scale, nucleotide-optimized SIV sequence derived from the pathogenic clone SIVmac239. We produced the corresponding artificial virus in lymphocyte cell line and analysed its capacity to induce type-I IFN in different cellular models. This synthetic virus presented the same replicative capacity than WT virus and a reduced ability to induce type-I IFN.

Conclusion: Overall, these data suggest for the first time a direct link between the nucleotide composition of lentiviruses and their pathogenicity. They also describe the synthesis a novel artificial SIV harbouring an attenuated pathogenic potential.

P17.01

Synergistic Upregulation of Systemic IL-10 and Functional Enhancement of CD4+ T Cells by IL-10 Receptor Blockade in HIV+/MTB Co-Infection

S. Chetty1, F. Porichis2, P. Govender1, J. Zupkosky3, M. Pillay1, B.D. Walker4, T. Ndung’u1, D.E. Kaufmann2, V.O. Kasprowicz1

1University of KwaZulu-Natal, Durban, South Africa; 2The Ragon Institute of MGH, MIT and Harvard, Boston, USA; 3The Ragon Institute, Boston, USA; 4Ragon Institute of MGH, MIT and Harvard, Boston, USA

Background: Due to the current dual-epidemic of HIV+/AIDS and TB, functional understanding of HIV+/MTB co-infection immunology is critical for furthering vaccine and therapeutic strategies against both pathogens. IL-10 is an anti-inflammatory cytokine, produced by lymphocytes and monocytes, that has been shown to down-regulate expression of anti-viral and anti-bacterial cytokines such as IFN-gamma, IL2 and TNF-alpha. Elevated IL-10 levels have been reported during chronic human HIV infection and ex vivo IL-10 receptor blockade in the same patients has been shown to increase HIV specific T cell function.

Methods: This study assessed plasma levels of IL-10 and other cytokines (TNFa, IFNy, IL-6, IL-2 and IL-13) in 119 subjects presenting different constellations of HIV and/or MTB mono-or co-infection. Cytokine concentrations were measured by high sensitivity bead array assay (Luminex) and correlated with infection status, parameters of HIV disease progression and state of MTB infection. Furthermore, the effect of IL-10 receptor blockade (IL-10R) was assessed with regard to HIV and MTB specific CD4 T cell function in HIV+/LTBI co-infected subjects (as measured by Luminex).

Results: Elevated levels of IL-10 were observed in HIV+/TB active individuals as compared to Active TB mono-infected (p = 0.0295) and HIV mono-infected (p = 0.0450). Plasma IL-10 levels were found to correlate directly with CD4 count (p = 0.0002) and inversely with viral load (p = 0.0168) in HIV+/LTBI subjects but not in HIV+/TB active subjects. Ex vivo blockade of IL-10Ra significantly enhanced MTB specific CD4+ T cell cytokine production as compared to isotype control in HIV+/MTB co-infected subjects: IFN-y (p = 0.0078), TNF-a (p = 0.0078), IL-6 (p = 0.0313) and IL-2 (p = 0.0156).

Conclusion: This study concluded that there is a synergistic upregulation of IL-10 in HIV+/TB active patients as compared to HIV and MTB mono-infection. Additionally, this study concludes that novel ex vivo enhancement of MTB and HIV specific CD4 T cell function is possible with IL-10Ra blockade in HIV+/LTBI subjects.

P17.06

Cryptic Epitopes from Alternative Reading Frames Restricted by HLAs Associated with a Good Prognosis Are Frequently Recognized in HIV Infection

A. Bansal1, S. Seevers2, T. Mann2, J. Carlson3, A. Bet2, Q. Zhao2, S. Heath2, D. Heckerman3, P.A. Goepfert2

1University of Alabama at Birmingham, Birmingham, USA; 2UAB, Birmingham, USA; 3Microsoft Corporation, Seattle, USA

Background: Cryptic epitopes (CE) are products of translation of alternate reading frames (ARF, 2 sense and 3 antisense) that are commonly targeted during HIV/SIV infection. To understand the full extent of contributions of HIV specific CE in HIV-1 pathogenesis, we performed mapping of the CE derived from ARFs of nine HIV-1 encoded proteins.

Methods: For a comprehensive approach, we designed overlapping peptides (OLPs; 12–18 mers) for the 5 ARFs of clade B gag and pol (PeptGen program, Los Alamos). We also predicted (using clade B sequences/Epipred program) 9–11mer peptides that bind HLA-B*27, B*57 or B*5801 and span the ARFs of the nine HIV-1 encoded proteins. PBMC from seronegative donors (n = 42) and chronically (CHI, n = 93) HIV clade B infected patients were used to evaluate CE specific T-cell responses in an IFN-g ELISpot assay. Among CHI, 80% patients had either B*27, B*57 and/or B*5801 alleles.

Results: We predicted 520 (B*27), 955 (B*57) and 1027 (B*5801) potential CE in each of the five ARFs of the nine HIV-1 encoded proteins. The antisense frames encoded a majority of these CE. Predicted peptides with >50% probability of being an epitope were synthesized; B*27 (N = 30), B*57 (N = 39) and B*58 (N = 90). Overall, 26% and 2% of CHI patients and seronegative donors respectively had CE responses (p = 0.0006, Fischer’s exact). The overall responder frequency for HLA specific CE response was 22% (range 6%-43%) with the highest recognition frequency noted for HLA-B*5801/B*57 patients (p = 0.005, Fischer’s exact). In our comprehensive mapping analysis, 17% patients targeted CE from gag/pol ARFs and all responders were either HLA-B*27, B*57 or B*5801. Among these, the most frequently targeted were pol 2 (31%) followed by gag 2 and 5 (25%) frames.

Conclusion: These data underscore the importance of CE targeting especially those that are presented by the so-called ‘‘protective alleles’’ in HIV-1 infection and hence have implications for vaccine design.

P17.12

Spontaneous HIV-1 Control Is Associated with Distinct Epitopes that Promiscuously Bind Multiple HLA Class II Alleles

S. Ranasinghe1, M. Flanders1, D. Soghoian1, S. Cutler1, M. Lindqvist1, I. Davis1, M. Ghebremichael1, B.D. Walker1, A. Sette2, F. Pereyra1, D. Heckerman3, H. Streeck1

1Ragon Institute of MGH, MIT and Harvard, Charlestown, USA; 2La Jolla Institute for Allergy & Immunology, Center for Infectious Dis, La Jolla, USA; 3Microsoft Research, Los Angeles, USA

Background: Although HIV-specific CD4+ T-cells are preferentially infected, there is growing evidence that these cells play a pivotal role in control of viremia. However, little is known about the recognition and HLA-class II restriction of HIV-specific CD4+ T-cells in the setting of chronic or spontaneously controlled HIV-infection. Yet, this knowledge will be crucial for the induction of protective immunity in a prophylactic vaccine.

Methods: CD8+ depleted PBMCs from 94 HIV-infected subjects (controller, progressor and ART-treated) were screened for IFNg- responses to 410 overlapping clade B peptides in a modified Elispot. HLA-class II restriction was defined by testing CD4+ T- cell lines against peptide-loaded L-cells transfected with a single HLA-DR.

Results: HIV-specific CD4+ T-cell responses were detected in all patient subgroup yet the breadth of these responses was significantly expanded in HIV-controllers (p = 0.029). Most HIV- specific CD4+ T-cells targeted epitopes within Gag, Nef and gp120. Strikingly, we observed significant differences in the immunodominance profile between patient subgroups that distinguished not only elite controllers from rapid progressors, but also from viremic controllers. While elite controllers dominantly targeted a tight cluster of conserved epitopes within p24, chronic progressors preferentially targeted epitopes within the C1/C3 domain of gp120. Moreover, the ratio of Env- and Gag-specific responses was a clear indicator of viral control. A multivariate bootstrap analysis identified four distinct Gag epitopes that were associated with spontaneous control (Probability = 0.60–0.85), while a single gp120 peptide in C3 was associated with high viremia (Probability = 0.82). Detailed characterization showed that promiscuous binding to multiple HLA-DR alleles occurs frequently, and revealed that HLA-DRB1*0701 is associated with slow disease progression (Probability = 0.88).

Conclusion: Our data demonstrate that significant differences exist in protein targeting by HIV-specific CD4+ T-cells between controllers and progressors. We also identified distinct epitopes associated with viral control that are conserved and bind promiscuously to multiple HLA-class II alleles, which will be important for vaccine design.

P14.14 LB

Penile SIV Challenge of Ad5-Infected Macaques Immunized With an Ad5-Based Vaccine Recapitulates the Enhanced Infection Rate Among STEP Trial Vaccines

H. Qureshi5, Z. Ma5, Y. Huang1, G. Hodge5, M. Thomas2, J. DiPasquale2, V. DeSilva5, L. Fritts5, A.J. Bett3, J. Shiver3, M. Robert- Guroff2, M. Robertson3, D. Casimiro3, M. McChesney5, P. Gilbert4, C. Miller5

1Statistical Center for HIV/AIDS Research and Prevention, Fred Hutchins, Seattle, WA, USA; 2Vaccine Branch, NCI, NIH, Bethesda, MD, USA; 3Merck Research Laboratories, West Point, PA, USA; 4Statistical Center for HIV/AIDS Research and Prevention, Fred Hutchin, Seattle, WA, USA; 5UC Davis, Davis, CA, USA

Background: The MRKAd5 HIV-1 subtype B Gag-Pol-Nef vaccine enhanced susceptibility to HIV-1 infection in Ad5-seropositive, uncircumcised men.

Methods: To develop an animal model to understand these results we determined if rhesus macaques chronically infected with a host range mutant adenovirus type-5 (Ad5hr) and then immunized with a replication defective Ad5 SIVmac239 Gag-Pol- Nef vaccine were more resistant or susceptible to SIV infection than unimmunized rhesus macaques during a series of repeated penile SIVmac251 exposures.

Results: We found that 2 of 9 rhesus macaques infected with Ad5hr prior to immunization became SIV infected after penile exposure to 10³ TCID50 of SIVmac251. In contrast none of the 34 unimmunized animals, including 8 Ad5 seropositive animals immunized with the empty vector; Ad5 seronegative animals immunized with the Ad5 SIV vaccine (n = 9) or empty vector (n = 9) and 8 naive control animals became SIV infected after penile exposure to the same dose of SIVmac251. At the lowest SIV exposure dose (10³ TCID50), the risk of infection was greater for animals with Ad5 titers at the time they were immunized with the MRKAd5 SIVmac239 subtype Gag-Pol-Nef vaccine compared to all the other animal groups (p = 0.004 based on log rank test). Penile exposure to more concentrated virus inoculums produced similar rates of infection in all animals groups. The Ad5 SIV vaccine induced CD8+ T cell responses in approximately 70% monkeys, which is similar to the proportion of humans that responded to HIV-1 vaccine.

Conclusion: The results of the NHP study described here recapitulate the results of the STEP trial and demonstrate that the results of NHP studies using challenge viruses and routes of exposure designed to mimic the variety and complexity of HIV-1 sexual transmission can reflect the outcomes of AIDS vaccine efficacy trials.

P18.24 LB

Comprehensive Cross-Clade Elimination of Cells Infected with Globally Diverse HIV-1, HIV-2 and SIV Isolates by HERV-K-Specific CD8+ T-cells

B.R. Jones1, K.E. Garrison2, S. Mujib1, V. Mihajlovic1, N. Aidarus1, D.V. Hunter1, E. Martin1, V.M. John1, W. Zhan1, N.F. Faruk1, G. Gyenes1, N.C. Sheppard3, I.M. Pruimboom-Brees4, D. Goodwin4, D. SenGupta2, R. Tandon2, J.B. Sacha5, D.F. Nixon2, M.A. Ostrowski1

1University of Toronto, Toronto, Canada; 2University of California, San Francisco, San Francisco, CA, USA; 3Vaccine Research, Worldwide Research and Development, Pfizer Inc, San Diego, CA, USA; 4Drug Safety RandD, Worldwide Research and Development, Pfizer Inc., Sandwich, United Kingdom (Great Britain); 5Oregon National Primate Center, Oregon Health and Science University, Beaverton, OR, USA

Background: The genetic diversity of HIV antigens represents a paramount challenge in the development of vaccines. Here, we establish rationale for circumventing this obstacle by eliciting cellular immune responses against stable human endogenous retrovirus K (HERV-K) antigens. Protein-level expression of HERV-K antigens has not been observed in healthy tissues, but does occur in various malignancies. We hypothesized that HIV would disrupt control of HERV-K expression within infected cells, targeting them for elimination by HERV-K-specific CD8+ T-cells.

Methods: HERV-K expression was assessed by qPCR, western blot, immunohistochemistry and mass-spectrometry. HERV-K- specific T-cell responses were identified by ELISPOT and a HERV-K-Env-specific CD8+ T-cell was cloned by IFN-g capture. Additional HERV-K-specific T-cell lines and clones were obtained by a dendritic-cell based expansion method. Recognition and elimination of HIV-infected cells were assessed by flow cytometry.

Results: HIV-infection resulted in HERV-K Gag and Env protein expression in primary CD4+ T-cells. HERV-K Gag and Env specific CD8+ T-cells specifically responded to, and eliminated, HIV-infected cells in an MHC-I-restricted manner. This recognition was dependent upon Vif, however expression of Vif alone was insufficient to recapitulate a response. A HERV-K-Env-specific CD8+ T-cell clone displayed comprehensive elimination of cells infected with a panel of 23 diverse HIV-1 and HIV-2 primary isolates as well as with SIVmac251.

Conclusion: The de-repression of HERV-K expression in HIV-infected cells, for which Vif is necessary but insufficient, constitutes a marker of infection that can be targeted by HERV-K-specific CD8+ T-cells. The unprecedented breadth of reactivity of HERV-K-specific T-cell responses against diverse lentiviruses, both implied by the proposed mode of action and observed in the current study, comprises an enticing advantage over HIV-1-specific T-cell responses which could be exploited in the development of HERV-K-targeted vaccines to treat or prevent HIV infection. These data also provides rationale for considering a role for HERV-K-specific T-cell responses in natural control of HIV.

P18.26 LB

Immunological Correlates of Protection Against Acquisition of HIV-1 Infection in the iPrEx Trial

P.J. Kuebler1, S.J. Holditch1, J.J. Mcconnell2, L. Tarosso3, M. Mehrotra2, B.L. Shaw1, R.R.R. Andre1, C.G. Rex1, E.M. Eriksson1, V.M. York1, V. McMahon2, R.J. Hance2, P. Defechereux2, D.V. Glidden2, S. Shiboski2, R.M. Grant2, D.F. Nixon1, E.G. Kallas3

1University of California, San Francisco, San Francisco, CA, USA; 2J. D. Gladstone Institutes, University of California, San Francisco, San Francisco, CA, USA; 3Universidade Sao Paulo, Brazil

Background: Pre-exposure prophylaxis for HIV-1 prevention in men who have sex with men (MSM) has been shown to reduce overall HIV-1 incidence by 44%. We hypothesized that exposure to HIV-1 before enrollment could have stimulated cell mediated immunity, which contributed to the observed protection.

Methods: We studied immune responses in highly exposed MSM enrolled in the iPrEx study who either seroconverted (SC; N = 93) or remained seronegative throughout follow up for up to 132 weeks (ESN; N = 485). Pre-infection time-points from SC participants were matched with time-points from ESN controls and analyzed for HIV-1 specific T-cell responses to p24, Nef, Vif, integrase (Int), reverse transcriptase (RT), and protease (Prot) using a standard IFNg ELIspot assay. Non-parametric tests were used to assess statistical significance of the comparisons between responses in SC and ESN participants.

Results: ESN participants had a 3-fold greater mean aggregate HIV-1 specific T-cell response compared to SC participants, 297 vs. 99 SFU/10⁶ PBMC, respectively (P < 0.0001), and a greater breadth of responses (mean number of antigens recognized = 2.7 vs 1.6 (P <0.0001)).

Conclusion: Broader and stronger HIV-1 specific T-cell responses in ESNs are a correlate of protection against acquisition of HIV-1.