NSC95397 is a Novel HIV-1 Latency Reversing Agent

• Published in: bioRxiv
• Main Authors: Doyle, Randilea Nichols, Yang, Vivian, Kayode, Yetunde I, Damoiseaux, Robert, Taylor, Harry E, Fregoso, Oliver I
• Format: Journal Article
• Language: English
• Published: United States 26.08.2024
• ISSN: 2692-8205; 2692-8205
• DOI: 10.1101/2023.05.24.542213

The latent viral reservoir represents one of the major barriers of curing HIV-1. Focus on the "kick and kill" approach, in which virus expression is reactivated then cells producing virus are selectively depleted, has led to the discovery of many latency reversing agents (LRAs) that have furthered our understanding of the mechanisms driving HIV-1 latency and latency reversal. Thus far, individual compounds have yet to be robust enough to work as a therapy, highlighting the importance of identifying new compounds that target novel pathways and synergize with known LRAs. In this study, we identified a promising LRA, NSC95397, from a screen of ~4250 compounds. We validated that NSC95397 reactivates latent viral transcription and protein expression from cells with unique integration events and across different latency models. Co-treating cells with NSC95397 and known LRAs demonstrated that NSC95397 synergizes with different drugs under both standard normoxic and physiological hypoxic conditions. NSC95397 does not globally increase open chromatin, and bulk RNA sequencing revealed NSC95397 does not greatly increase cellular transcription. Instead, NSC95397 downregulates pathways key to metabolism, cell growth, and DNA repair - highlighting the potential of these pathways in regulating HIV-1 latency. Overall, we identified NSC95397 as a novel LRA that does not largely alter global transcription, that shows potential for synergy with known LRAs, and that may act through novel pathways not previously recognized for their ability to modulate HIV-1 latency.