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TGF-β blockade drives a transitional effector phenotype in T cells reversing SIV latency and decreasing SIV reservoirs in vivo

Author

Listed:
  • Jinhee Kim

    (Northwestern University)

  • Deepanwita Bose

    (University of Louisiana at Lafayette)

  • Mariluz Araínga

    (University of Louisiana at Lafayette)

  • Muhammad R. Haque

    (Northwestern University)

  • Christine M. Fennessey

    (Frederick National Laboratory for Cancer Research)

  • Rachel A. Caddell

    (Tulane National Primate Research Center)

  • Yanique Thomas

    (Northwestern University)

  • Douglas E. Ferrell

    (University of Louisiana at Lafayette)

  • Syed Ali

    (University of Louisiana at Lafayette)

  • Emanuelle Grody

    (Northwestern University
    Northwestern University)

  • Yogesh Goyal

    (Northwestern University
    Northwestern University
    Northwestern University)

  • Claudia Cicala

    (National Institutes of Health)

  • James Arthos

    (National Institutes of Health)

  • Brandon F. Keele

    (Frederick National Laboratory for Cancer Research)

  • Monica Vaccari

    (Tulane National Primate Research Center
    Tulane University School of Medicine)

  • Ramon Lorenzo-Redondo

    (Northwestern University
    Northwestern University Havey Institute for Global Health)

  • Thomas J. Hope

    (Northwestern University)

  • Francois Villinger

    (University of Louisiana at Lafayette)

  • Elena Martinelli

    (Northwestern University)

Abstract

HIV-1 persistence during ART is due to the establishment of long-lived viral reservoirs in resting immune cells. Using an NHP model of barcoded SIVmac239 intravenous infection and therapeutic dosing of anti-TGFBR1 inhibitor galunisertib (LY2157299), we confirm the latency reversal properties of in vivo TGF-β blockade, decrease viral reservoirs and stimulate immune responses. Treatment of eight female, SIV-infected macaques on ART with four 2-weeks cycles of galunisertib leads to viral reactivation as indicated by plasma viral load and immunoPET/CT with a 64Cu-DOTA-F(ab’)2-p7D3-probe. Post-galunisertib, lymph nodes, gut and PBMC exhibit lower cell-associated (CA-)SIV DNA and lower intact pro-virus (PBMC). Galunisertib does not lead to systemic increase in inflammatory cytokines. High-dimensional cytometry, bulk, and single-cell (sc)RNAseq reveal a galunisertib-driven shift toward an effector phenotype in T and NK cells characterized by a progressive downregulation in TCF1. In summary, we demonstrate that galunisertib, a clinical stage TGF-β inhibitor, reverses SIV latency and decreases SIV reservoirs by driving T cells toward an effector phenotype, enhancing immune responses in vivo in absence of toxicity.

Suggested Citation

  • Jinhee Kim & Deepanwita Bose & Mariluz Araínga & Muhammad R. Haque & Christine M. Fennessey & Rachel A. Caddell & Yanique Thomas & Douglas E. Ferrell & Syed Ali & Emanuelle Grody & Yogesh Goyal & Clau, 2024. "TGF-β blockade drives a transitional effector phenotype in T cells reversing SIV latency and decreasing SIV reservoirs in vivo," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45555-x
    DOI: 10.1038/s41467-024-45555-x
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