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Luring HIV out of its latency may be the secret to developing an effective HIV cure

Contributed by guest blogger: Steven Chan ‘12

The emergence of highly active antiretroviral therapy (HAART) in the treatment of HIV-infected individuals has certainly changed the outlook of an HIV diagnosis today, compared to what such an outlook looked like in the earliest years of the epidemic. Such a treatment regimen, if strictly adhered to, has the potential to suppress the levels of active circulating HIV in the infected individual to a level that is manageable, essentially halting the progression of the disease. It soon became clear however, that these treatments could not effectively clear the body of all HIV particles—the virus manages to stow itself away within the cellular genome of the memory CD4+ T-cells, and remain transcriptionally silent indefinitely. These latent reservoirs of HIV-infected cells prove to be undetectable for these antiretroviral therapies, since antiretroviral drugs can only target HIV-infected cells when they are replicating. And so, memory cells, which replicate infrequently, cannot be effectively targeted, making it impossible to clear HIV-infected bodies of all HIV-particles. “We’re never going to cure anybody unless we go for this latent pool,” says Robert Siliciano, the researcher at Johns Hopkins University that first identified the latent HIV memory-T cells.

A great deal of HIV-therapy research over the past decade has focused on finding a way to coax these infected cells out of their latency to make them detectable by antiretroviral drugs. The problem that has been persistently hounding researchers has been the difficulty in luring these cells out of their latency without triggering the immune system in an inflammation response that would end up doing more harm than good. David Margolis, MD, and his research team at UNC Chapel Hill, who have been working on this problem for a while now, have found success with a set of histone deacetylase inhibitors called Zolinza (vorinostat), a chemotherapeutic cancer drug that has been found to stimulate gene expression within the latent HIV-infected cells without inducing an overwhelming immune response. HDAC inhibitors accomplish this by inhibiting the activity of histone deacetylase, which removes the acetyl groups from the lysine residues in the core histones, resulting in the formation of a condensed and transcriptionally silenced chromatin. By inhibiting this activity, the core histones become less compact, and the chromatin becomes more transcriptionally active. After initial success with in vitro tests in cell cultures and in blood tissues, six HIV-positive men were recruited in a clinical trial pairing this treatment alongside consistent antiretroviral therapy. Each of the study volunteers had already been taking part in a robust antiviral regimen for an average of four years, and displayed undetectable viral loads and stable CD4+ T-cell counts. Post-exposure to Zolinza, HIV-RNA levels—a marker of viral activity—in these patients increased by an average of 4.8 times, ranging from a 1.5-fold increase in one patient to a 10.0-fold increase in another. The drug took effect in as little as 8 hours, inducing a two-fold increase in cellular and chromatin-bound histone acetylation within that time span. Increased expression made these cells susceptible to detection and eradication by the antiretroviral drugs, which proceeds just as efficiently as usual.

Margolis addresses the significance of this advancement, “This study provides first proof of concept, demonstrating disruption of latency, a significant step toward eradication.” Just how effective this drug is in teasing out the latent cells still remains to be seen—with nearly a ten-fold difference in one trial participant compared to the other, the efficacy of such a drug remains questionable. The limited sample size in this initial trial also doesn’t give us too much to go on. There are also concerns that the drug could induce some serious side effects such as blood clots in the legs and lungs, diabetes, fewer platelets and RBC count, as well as dehydration from nausea and vomiting, but at least in this trial, there were only mild adverse effects at worst. Little is known about the potential adverse effects of long-term use of the drug. Margolis et al.’s study design made use of a single dose of Vorinostat, but it is likely that repeated intermittent doses would yield the most optimal effects. “Vorinostat may not be the magic bullet, but this success shows us a new way to test drugs to target latency and suggests that we can build a path that may lead to a cure,” says Margolis. Further studies to assess Vorinostat’s safety and effectiveness, and the way it interacts with other HAART treatments, would certainly be crucial before it can be deployed as a component in future HIV treatment regimen.

 

Links:

Archin N, Liberty A, Kashuba A, Choudhary S, Kuruc J, Hudgens M, Kearney M, Eron J, Hazuda D, and Margolis D. “Administration of Vorinostat Disrupts HIV-1 Latency in Patients on ART,” HIV Persistence, Latency, and Eradication at 19th Conference on Retroviruses and Opportunistic Infections, March 8, 2012,              http://www.retroconference.org/2012b/Abstracts/45315.htm

Contreras X, Schwenwker M, Chen CS, McCune JM, Deeks SG, Martin J, Peterlin BM. Suberoylanilide Hydroxamic Acid Reactivates HIV from Latently Infected Cells, J. Biol. Chem., January 9, 2009, http://www.jbc.org/content/284/11/6782.full

Horn T. “Pathway to a Cure: Cancer Drug Helps Purge HIV From Resting Cells,”  AidsMeds, March 9, 2012, http://www.aidsmeds.com/articles/hiv_vorinostat_ cure_1667_22059.shtml

“Lymphoma Drug Wakes Up Dormant HIV,” AidsMeds, March 17, 2009,     http://www.aidsmeds.com/articles/hiv_zolinza_latent_1667_16307.shtml

Steven Chan is a senior at Vassar College, majoring in Science, Technology, and Society

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