REACH: Research Enterprise to Advance a Cure for HIV
Weill Medical Coll Of Cornell Univ, New York NY
Investigators
Linked publications & trials
Abstract
Modified Project Summary/Abstract Section Despite the success of standard antiretroviral therapy (ART), the need for an HIV cure remains compelling, both to improve the lives of PWH and to bring about the end of the pandemic. Strategies for an HIV cure fall under two categories: those that seek ART-free âremissionâ, and those targeting a classical cure or âeradicationâ. While precedents exist for both scenarios, the latter have only been achieved with bone marrow transplantation. In contrast, although naturally occurring immune-mediated control of HIV (remission) is relatively rare, many such cases have been described. Our proposed âMartin Delaney Collaboratory for HIV Cure Researchâ program is entitled âREACHâ - Research Enterprise to Advance a Cure for HIV. The central theme of REACH is that cellular immune responses (NK and T-cells), combined with next generation virus-neutralizing biologics, can be harnessed to achieve durable remission and eradication of HIV reservoirs. The proposed research focuses on closing gaps in our understanding of the fundamentals of the system that we are trying to perturb, i.e.: the HIV reservoir in relation to cellular immunity, as the means to achieve real progress towards effective and viable HIV cure strategies. Our approach centers around three research foci, which emphasize back to basics science, but connect this with discovery to translational pipelines directed towards both remission and eradication. The proposed objectives, broadly defined, aim to: (1) redefine the three-way relationship between the persistent HIV reservoir, CD8+ T-cells, and rebound virus at the levels of: single cells, individuals, and populations, (2) harness conventional and unconventional (bNAb-induced) CD8+ T-cell responses, in combination with bNAbs and ânext generationâ biologics, to achieve durable control of HIV replication, and (3) develop a discovery-to-translation pipeline to overcome multiple barriers to the eradication of HIV reservoirs by CTL/NK cells. These studies will be rooted in a strong basic science program that will contextualize results with novel insights into barriers to immune-mediated reservoir elimination, including the role of the proviral integration site and of viral and host factors influencing immune susceptibility. These objectives will be realized by a group of accomplished investigators with strong collaborative histories, along with community and industry partners.
View original record on NIH RePORTER →