Yu, QiguiSyed, FahimDent, AlexanderYang, KaiWan, Jun2023-08-152023-08-152023-07https://hdl.handle.net/1805/34935Indiana University-Purdue University Indianapolis (IUPUI)HIV-1 is the causative agent of AIDS in people living with HIV-1 (PLHIV). HIV-1 predominantly targets and kills immune cells that are needed for defense against infections and illnesses. Although therapy can control the spread of HIV-1 in PLHIV and decrease the amount of virus present in the body, some subsets of infected immune cells are able to survive HIV-1 and escape treatment. Any pause in therapy leads to a return to high levels of viral loads due to these surviving infected cells. These subsets of infected immune cells escaping treatment represent a major obstacle to the eradication of HIV-1. One such subset of immune cells, the Germinal Center T follicular helper (GC Tfh) cells, can both survive infection and expand in PLHIV. Using human tonsil tissues, the major site of GC Tfh cells, our lab was able to find two critical factors that influence the GC Tfh cells’ ability to survive and thrive while infected by HIV-1. First, we found that GC Tfh cells have a distinct metabolic profile compared to other types of CD4 T cells found in human tonsils. This was characterized by a preference towards non-glycolytic metabolism even when infected with HIV-1. We found that inhibiting non-glycolytic metabolism resulted in a significant decrease in HIV-1 infected GC Tfh cells. Second, we found that GC Tfh cells sharply upregulate proteins responsible for stopping controlled cell death. We found one of these proteins, BIRC5, was integral to GC Tfh survival of HIV-1 infection. Inhibition of BIRC5 led to overall decreases in surviving infected cells, as well as significant decreases in infected GC Tfh survival. In contrast, inhibition of BIRC5 had no effect on uninfected cells. Our results signify an important advancement in the study of HIV-1 reservoir and will help in developing novel therapeutics to eradicate rather than suppress HIV-1 in PLHIV.en-USAIDSHIV-1Latent ReservoirDissertation