1. Glycolysis downregulation is a hallmark of HIV-1 latency and sensitizes infected cells to oxidative stress
- Author
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Aaron R. Goldman, Fengchun Ye, Andrea Savarino, Konstantin Leskov, Iart Luca Shytaj, Mattia Forcato, David Alvarez-Carbonell, Bojana Lucic, Irene Carlon-Andres, Amit Singh, Marina Lusic, Ricardo Sobhie Diaz, Silvio Bicciato, MohamedHusen Munshi, Nicolly Cruz, Mohammad Tarek, Hsin-Yao Tang, Francesco A. Procopio, and Sergi Padilla-Parra
- Subjects
Transcriptome ,Myeloid ,medicine.anatomical_structure ,Downregulation and upregulation ,medicine ,Glycolysis ,NAD+ kinase ,Biology ,Thioredoxin ,Pentose phosphate pathway ,Latency (engineering) ,Cell biology - Abstract
HIV-1 infects lymphoid and myeloid cells, which can harbor a latent proviral reservoir responsible for maintaining lifelong infection. Glycolytic metabolism has been identified as a determinant of susceptibility to HIV-1 infection, but its role in the development and maintenance of HIV-1 latency has not been elucidated. By combining transcriptomic, proteomic and metabolomic analysis, we here show that transition to latent HIV-1 infection downregulates glycolysis, while viral reactivation by conventional stimuli reverts this effect. Decreased glycolytic output in latently infected cells is associated with downregulation of NAD+/NADH. Consequently, infected cells rely on the parallel pentose phosphate pathway and its main product, the antioxidant NADPH, fueling antioxidant pathways maintaining HIV-1 latency. Of note, blocking NADPH downstream effectors, thioredoxin and glutathione, favors HIV-1 reactivation from latency in lymphoid and myeloid cellular models. This provides a “shock and kill effect” decreasing proviral DNA in cells from people-living-with-HIV/AIDS. Overall, our data show that downmodulation of glycolysis is a metabolic signature of HIV-1 latency that can be exploited to target latently infected cells with eradication strategies.
- Published
- 2020
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