GGrantIndex
← Search

DISCOVERY OF NEW THERAPEUTICS FOR DRUG-FREE REMISSION OF HIV

$315,015R01FY2016GMNIH

Washington University, Saint Louis MO

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): HIV latency: Selective Inhibitors of Histone Deacetylase (HDAC) Isoforms - In order to eliminate infection in HIV-positive patients, latent viral reservoirs must be purged to render infected cells susceptible to antivirals. HDAC3 appears to be the primary HDAC responsible for HIV latency in model cell lines, and a specific inhibitor of HDAC3 should overcome latency in these infected cells in order to expose them to antiviral therapeutics. It is not clear, however, that a specific inhibitor of HDAC3 would be effective against latency cells isolated from aviremic patients due to lack of homogeneity in the location of DNA integration of the HIV genome As the length of treatment with any HDAC inhibitor needed for effective eradication is unknown at present, side effects from non-specific epigenetic drugs is an obvious concern. Apicidin is typical of HDAC inhibitors (HDACIs) that show selectivity for an isoform, in this case HDAC3, but exhibit only 3-fold discrimination vs. HDAC2 and 11-fold vs. HDAC8. The cyclic tetrapeptide headgroup in apicidin is a source of specificity for HDAC3 and coincides with a major research interest of the Marshall lab, namely the use of constrained cyclictetrapeptides as probes of molecular recognition. An international team of experts in design, synthesis and characterization of HDAC inhibitors in overcoming HIV latency has been organized to generate specific inhibitors of HDAC isoforms, starting with HDAC3 for the potential eradication of AIDS.

View original record on NIH RePORTER →