HIV-1 Vpr drives a tissue residency-like phenotype during selective infection of resting memory T cells.

Abstract

HIV-1 replicates in CD4+ T cells, leading to AIDS. Determining how HIV-1 shapes its niche to create a permissive environment is central to informing efforts to limit pathogenesis, disturb reservoirs, and achieve a cure. A key roadblock in understanding HIV-T cell interactions is the requirement to activate T cells in vitro to make them permissive to infection. This dramatically alters T cell biology and virus-host interactions. Here we show that HIV-1 cell-to-cell spread permits efficient, productive infection of resting memory T cells without prior activation. Strikingly, we find that HIV-1 infection primes resting T cells to gain characteristics of tissue-resident memory T cells (TRM), including upregulating key surface markers and the transcription factor Blimp-1 and inducing a transcriptional program overlapping the core TRM transcriptional signature. This reprogramming is driven by Vpr and requires Vpr packaging into virions and manipulation of STAT5. Thus, HIV-1 reprograms resting T cells, with implications for viral replication and persistence.

Description

open access article

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Citation

Reuschl, A.K., Mesner, D., Shivkumar, M., Whelan, M.V.X., Pallett, L.J., Guerra-Assunção, J.A., Madansein, R., Dullabh, K.J., Sigal, A., Thornhill, J.P., Herrera, C., Fidler, S., Noursadeghi, M., Maini. M.K., Jolly, C. (2022) HIV-1 Vpr drives a tissue residency-like phenotype during selective infection of resting memory T cells. Cell Reports, 39 (2), 110650

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Research Institute