JCI Insight (Feb 2021)

TCF-1 regulates HIV-specific CD8+ T cell expansion capacity

  • Rachel L. Rutishauser,
  • Christian Deo T. Deguit,
  • Joseph Hiatt,
  • Franziska Blaeschke,
  • Theodore L. Roth,
  • Lynn Wang,
  • Kyle A. Raymond,
  • Carly E. Starke,
  • Joseph C. Mudd,
  • Wenxuan Chen,
  • Carolyn Smullin,
  • Rodrigo Matus-Nicodemos,
  • Rebecca Hoh,
  • Melissa Krone,
  • Frederick M. Hecht,
  • Christopher D. Pilcher,
  • Jeffrey N. Martin,
  • Richard A. Koup,
  • Daniel C. Douek,
  • Jason M. Brenchley,
  • Rafick-Pierre Sékaly,
  • Satish K. Pillai,
  • Alexander Marson,
  • Steven G. Deeks,
  • Joseph M. McCune,
  • Peter W. Hunt

Journal volume & issue
Vol. 6, no. 3

Abstract

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Although many HIV cure strategies seek to expand HIV-specific CD8+ T cells to control the virus, all are likely to fail if cellular exhaustion is not prevented. A loss in stem-like memory properties (i.e., the ability to proliferate and generate secondary effector cells) is a key feature of exhaustion; little is known, however, about how these properties are regulated in human virus–specific CD8+ T cells. We found that virus-specific CD8+ T cells from humans and nonhuman primates naturally controlling HIV/SIV infection express more of the transcription factor TCF-1 than noncontrollers. HIV-specific CD8+ T cell TCF-1 expression correlated with memory marker expression and expansion capacity and declined with antigenic stimulation. CRISPR-Cas9 editing of TCF-1 in human primary T cells demonstrated a direct role in regulating expansion capacity. Collectively, these data suggest that TCF-1 contributes to the regulation of the stem-like memory property of secondary expansion capacity of HIV-specific CD8+ T cells, and they provide a rationale for exploring the enhancement of this pathway in T cell–based therapeutic strategies for HIV.

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