Cell Reports (Apr 2019)

HIV Controllers Exhibit Effective CD8+ T Cell Recognition of HIV-1-Infected Non-activated CD4+ T Cells

  • Blandine Monel,
  • Annmarie McKeon,
  • Pedro Lamothe-Molina,
  • Priya Jani,
  • Julie Boucau,
  • Yovana Pacheco,
  • R. Brad Jones,
  • Sylvie Le Gall,
  • Bruce D. Walker

Journal volume & issue
Vol. 27, no. 1
pp. 142 – 153.e4

Abstract

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Summary: Even with sustained antiretroviral therapy, resting CD4+ T cells remain a persistent reservoir of HIV infection, representing a critical barrier to curing HIV. Here, we demonstrate that CD8+ T cells recognize infected, non-activated CD4+ T cells in the absence of de novo protein production, as measured by immune synapse formation, degranulation, cytokine production, and killing of infected cells. Immune recognition is induced by HLA-I presentation of peptides derived from incoming viral particles, and recognition occurred either following cell-free virus infection or following cell-to-cell spread. CD8+ T cells from HIV controllers mediate more effective immune recognition than CD8+ T cells from progressors. These results indicate that non-activated HIV-infected CD4+ T cells can be targeted by CD8+ T cells directly after HIV entry, before reverse transcription, and thus before the establishment of latency, and suggest a mechanism whereby the immune response may reduce the size of the HIV reservoir. : The cure for HIV is not achievable due to HIV reservoirs, mostly in resting CD4+ T cells. Monel et al. show that CD8+ T cells from HIV controllers are able to establish immunological synapses with HIV+ resting CD4+ T cells, leading to IFN-γ, MIP1-β production, degranulation, and the elimination of the target cells. Keywords: HIV cure, cytotoxic T lymphocytes, HLA, elite controllers, HIV, perforin, granzyme, immunologic synapse