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Catching Up With Pathogenesis and Cure Research From CROI 2014

May 16, 2014

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In addition to studies covered in prior posts (a possible second pediatric cure case, Sangamo's gene therapy and limitations of latency-reversing agents), CROI 2014 featured a smorgasbord of presentations related to pathogenesis and cure research. Webcasts of all conference sessions are online, and many posters are now available in PDF format. Brief summaries of some notable studies are appended below, with links to webcasts and posters included where possible. Abstracts for posters that are unavailable as PDFs can be found in the final program and abstract book.

HIV Rebound in the Boston Patients

Timothy Henrich provided details on the two individuals in Boston who experienced a delayed return of HIV replication after a period during which it had been hoped they might be cured (this sobering news was covered on the blog last December). Henrich's presentation is available via webcast. Although they were monitored frequently after interrupting antiretroviral therapy (ART), viral load reached very high levels in both cases, and this was accompanied by symptoms of acute infection. The likely explanation is that their immune systems, having been newly generated by the stem cell transplants they had received to treat cancer, had not previously encountered HIV. Consistent with this possibility, HIV-specific cellular immune responses were undetectable prior to the viral load rebound but appeared afterward. At a community workshop on cure research immediately prior to CROI, Henrich noted that the size of the HIV reservoir had been reduced at least 3 logs in these individuals and was estimated to be very small at the time of the ART interruption; 290-2900 cells in one case, 40-730 cells in the other. The results suggest the bar is set very high for approaches that aim to cure HIV infection by shrinking the latent reservoir.

Treatment of Hyperacute HIV Infection

A large crowd congregated at a poster presentation (397LB) by Hiroyu Hatano from UCSF describing extremely early ART treatment in an individual who acquired HIV infection just prior to enrolling in a pre-exposure prophylaxis (PrEP) demonstration project. The infection occurred during a short 13-day window between a final screening visit and the day Truvada PrEP was first administered. When viral load results from the sample taken at Truvada initiation became available after seven days and showed a reading of 220 copies, the individual was switched to a conventional ART regimen. The viral load seven days later was 120 copies and there was a single measurement of cell-associated HIV RNA at a level of 4.7 copies per million CD4 T cells ~32 days after infection, but all subsequent tests for HIV RNA, DNA and replication-competent virus have been negative. The results raise the possibility that ART given at such an early stage of infection may have led to an adult equivalent of the Mississippi baby case. However, the experience of the Boston patients offers a cautionary tale about the interpretation of negative virological assay results. A treatment interruption will be considered after 12 months of ART.


Three Cured Mice

Qingsheng Li displayed an interesting poster immediately adjacent to Hatano's, but it didn't receive quite as much attention. Li's work attempted to recapitulate the Mississippi baby outcome in the humanized mouse model, by administering ART six hours after the animals were infected with HIV. ART was maintained for two weeks and then interrupted. HIV RNA and DNA remained undetectable after interruption, even when CD8 T cells were depleted, leading the researchers to conclude that a cure had been achieved. The initial experiment (reported in the conference abstract book) involved three ART-treated mice and three controls, but the poster included data on additional groups that received ART at later timepoints after infection (12 hours and 18 hours). In these animals, HIV rebounded after ART interruption. Unfortunately the poster is not yet available on the CROI website (there is a link, but it goes to the abstract book).

HIV Integration, Latency and CD4 T-Cell Survival

At least two published studies (Josefsson et al and Imamich et al) have documented that the homeostatic proliferation of memory CD4 T cells containing integrated HIV provirus can increase the amount of HIV DNA in the body. These studies tracked copies of grossly defective virus genomes that could only multiply as a result of the proliferation of the host CD4 T cell. Homeostatic proliferation is a normal immunological mechanism that sustains memory T cells, and causes them to expand in the setting of T-cell deficiency. The role of this process in maintaining the latent HIV reservoir was first described many years ago, based in part on the finding that lower CD4 T-cell counts are associated with an increased rate of CD4 T-cell proliferation and higher levels of HIV proviral DNA (although these levels remain extremely low compared to the overall size of the memory CD4 T-cell pool). Several presentations at CROI documented the phenomenon in a different way, by demonstrating the proliferation of HIV proviruses integrated at precisely the same location in the CD4 T-cell genome. Additionally, it was reported by Thor Wagner that HIV proviruses frequently integrate at very similar sites in certain CD4 T-cell genes associated with the cell cycle and differentiation, leading to the suggestion that HIV integration into these genes may somehow be promoting the growth and longevity of latently infected CD4 T cells. Wagner highlighted the fact that some of the genes into which HIV appears to preferentially integrate have been identified as having roles in cancers, and this point was echoed in a poster from Stephen Hughes laboratory at the National Cancer Institute. However, some cited examples such as Bach2 are also involved in CD4 T-cell differentiation (this is not mentioned in either CROI presentation), so it would be logical that genes such as this would be active in the CD4 T cells HIV infects, and the virus is already known to preferentially integrate into active genes. Additional research is needed to clarify whether there is anything sinister about these integration sites, or if they just reflect the locations HIV is most likely to have access to in the cells it is infecting. Based on the current evidence, it seems possible that these genes could simply be those that are active and available to HIV in CD4 T cells that are differentiating into a long-lived phenotype.

In an article about the research by Jon Cohen in Science, Wagner's colleague Lisa Frenkel goes so far as to suggest that there may be a link with cancers that occur in HIV-positive people, but to me this is a wildly speculative stretch given that most of these cancers have been shown to be associated with immunodeficiency (in both HIV-positive and HIV-negative people) and inflammation. The article also could be misread as suggesting that long-term HIV treatment causes higher cancer rates, when what the literature reports is that some HIV-positive people on ART still have an elevated risk of some non-AIDS defining cancers (NADCs) compared to HIV-negative people (age is the strongest, most consistent risk factor). A review on the subject from 2012 states: "the higher risk of NADCs is primarily among males, with HIV-infected women having no higher rates of NADCs compared with the overall population." A sex-biased cancer-promoting effect of HIV integration and latency does not appear very plausible, and T-cell cancers remain rare in HIV-positive people. In sum, pending further data, I would advocate extreme skepticism about Frenkel's suggestion that there may be a connection between HIV latency and the development of cancer. Links to CROI presentations on the topic are below.

Thor Wagner, Proliferation of Cells With HIV Integrated Into Regulatory Genes Is a Mechanism of Persistence

Mary Kearney, Massive Expansion of HIV Infected Cells With Identical Proviruses in Patients On Suppressive ART

Stephen Hughes, The Role of HIV Integration Sites in Extensive Clonal Expansion of Infected Cells in Patients

Eli Boritz, Central Memory and Effector Memory CD4 T Cells From HIV Controllers Harbor Distinct HIV Strains

Slim Success With Gut-Targeting Anti-Activation Strategies

Among the posters at CROI were results from four different clinical trials of therapies that aimed to ameliorate immune activation by targeting the microbial translocation pathway (the leakage of bacterial products from the gut into the systemic circulation). Sevelamer (a treatment for high blood levels of phosphorus that can bind bacterial lipopolysaccharide) and meselamine (a therapy that reduces mucosal inflammation in inflammatory bowel disease) had no effect on markers of microbial translocation or inflammation. The antibiotic rifaximin was associated with very small reductions in some markers of immune activation and inflammation. The probiotic supplement Biola was reported to significantly reduce the levels of the D-dimer by about one third over eight weeks in a small study (12 probiotic recipients, seven placebo recipients and six controls) and there were trends toward reduced CRP and IL-6. Markers of microbial translocation did not change. These results await confirmation in a larger trial with a longer duration of follow up.

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This article was provided by Treatment Action Group. It is a part of the publication Michael Palm HIV Basic Science, Vaccines & Cure Project.

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Please note: Knowledge about HIV changes rapidly. Note the date of this summary's publication, and before treating patients or employing any therapies described in these materials, verify all information independently. If you are a patient, please consult a doctor or other medical professional before acting on any of the information presented in this summary. For a complete listing of our most recent conference coverage, click here.


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