iScience (Dec 2024)

Bivalent SMAC mimetic APG-1387 reduces HIV reservoirs and limits viral rebound in humanized mice

  • Jaspreet Jain,
  • Tram N.Q. Pham,
  • Sharmin Begum,
  • Maria Carmen Romero-Medina,
  • Nicolas Bellini,
  • Yuanyi Li,
  • Frédéric Dallaire,
  • Kathie Béland,
  • Natasha Patey,
  • Jean V. Guimond,
  • Élie Haddad,
  • Yifan Zhai,
  • Éric A. Cohen

Journal volume & issue
Vol. 27, no. 12
p. 111470

Abstract

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Summary: Latent viral reservoirs (VRs) represent a main barrier to HIV cure. Thus, developing new approaches that can purge and eliminate VRs paves the path toward achieving an HIV-1 cure. APG-1387, a bivalent SMAC mimetic (SM), efficiently reactivates latent HIV expression in T cell line models and enhances active caspase 3 expression, a condition that typically leads to apoptosis. In primary CD4+ T cells infected with a dual reporter-encoded HIV, APG-1387 decreases latently infected cells without a notable effect on productively infected cells. In virally suppressed humanized (hu)-BLT mice, APG-1387 augments cell-associated viral RNA and potently reduces HIV DNA-containing cells without modulating T cell activation or proliferation. Upon antiretroviral therapy (ART) interruption, HIV rebound was decreased in APG-1387-treated humanized mice (hu-mice), and the viremia maintained at levels below that of pre-ART. Thus, the ability of APG-1387 to affect VRs and decrease viral rebound highlights the potential of bivalent SMs in HIV cure strategies.

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