The Journal of Clinical Investigation (Jun 2022)

Reprogramming dysfunctional CD8+ T cells to promote properties associated with natural HIV control

  • Federico Perdomo-Celis,
  • Caroline Passaes,
  • Valérie Monceaux,
  • Stevenn Volant,
  • Faroudy Boufassa,
  • Pierre de Truchis,
  • Morgane Marcou,
  • Katia Bourdic,
  • Laurence Weiss,
  • Corinne Jung,
  • Christine Bourgeois,
  • Cécile Goujard,
  • Laurence Meyer,
  • Michaela Müller-Trutwin,
  • Olivier Lambotte,
  • Asier Sáez-Cirión

Journal volume & issue
Vol. 132, no. 11

Abstract

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Virus-specific CD8+ T cells play a central role in HIV-1 natural controllers to maintain suppressed viremia in the absence of antiretroviral therapy. These cells display a memory program that confers them stemness properties, high survival, polyfunctionality, proliferative capacity, metabolic plasticity, and antiviral potential. The development and maintenance of such qualities by memory CD8+ T cells appear crucial to achieving natural HIV-1 control. Here, we show that targeting the signaling pathways Wnt/transcription factor T cell factor 1 (Wnt/TCF-1) and mTORC through GSK3 inhibition to reprogram HIV-specific CD8+ T cells from noncontrollers promoted functional capacities associated with natural control of infection. Features of such reprogrammed cells included enrichment in TCF-1+ less-differentiated subsets, a superior response to antigen, enhanced survival, polyfunctionality, metabolic plasticity, less mTORC1 dependency, an improved response to γ-chain cytokines, and a stronger HIV-suppressive capacity. Thus, such CD8+ T cell reprogramming, combined with other available immunomodulators, might represent a promising strategy for adoptive cell therapy in the search for an HIV-1 cure.

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