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ABC transporters and NR4A1 identify a quiescent subset of tissue-resident memory T cells
Chandra Sekhar Boddupalli, Shiny Nair, Simon M. Gray, Heba N. Nowyhed, Rakesh Verma, Joanna A. Gibson, Clara Abraham, Deepak Narayan, Juan Vasquez, Catherine C. Hedrick, Richard A. Flavell, Kavita M. Dhodapkar, Susan M. Kaech, Madhav V. Dhodapkar
Chandra Sekhar Boddupalli, Shiny Nair, Simon M. Gray, Heba N. Nowyhed, Rakesh Verma, Joanna A. Gibson, Clara Abraham, Deepak Narayan, Juan Vasquez, Catherine C. Hedrick, Richard A. Flavell, Kavita M. Dhodapkar, Susan M. Kaech, Madhav V. Dhodapkar
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Research Article Immunology

ABC transporters and NR4A1 identify a quiescent subset of tissue-resident memory T cells

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Abstract

Immune surveillance in tissues is mediated by a long-lived subset of tissue-resident memory T cells (Trm cells). A putative subset of tissue-resident long-lived stem cells is characterized by the ability to efflux Hoechst dyes and is referred to as side population (SP) cells. Here, we have characterized a subset of SP T cells (Tsp cells) that exhibit a quiescent (G0) phenotype in humans and mice. Human Trm cells in the gut and BM were enriched in Tsp cells that were predominantly in the G0 stage of the cell cycle. Moreover, in histone 2B-GFP mice, the 2B-GFP label was retained in Tsp cells, indicative of a slow-cycling phenotype. Human Tsp cells displayed a distinct gene-expression profile that was enriched for genes overexpressed in Trm cells. In mice, proteins encoded by Tsp signature genes, including nuclear receptor subfamily 4 group A member 1 (NR4A1) and ATP-binding cassette (ABC) transporters, influenced the function and differentiation of Trm cells. Responses to adoptive transfer of human Tsp cells into immune-deficient mice and plerixafor therapy suggested that human Tsp cell mobilization could be manipulated as a potential cellular therapy. These data identify a distinct subset of human T cells with a quiescent/slow-cycling phenotype, propensity for tissue enrichment, and potential to mobilize into circulation, which may be harnessed for adoptive cellular therapy.

Authors

Chandra Sekhar Boddupalli, Shiny Nair, Simon M. Gray, Heba N. Nowyhed, Rakesh Verma, Joanna A. Gibson, Clara Abraham, Deepak Narayan, Juan Vasquez, Catherine C. Hedrick, Richard A. Flavell, Kavita M. Dhodapkar, Susan M. Kaech, Madhav V. Dhodapkar

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Figure 2

SP phenotype marks LCMV-specific CD8+ Trm cells.

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SP phenotype marks LCMV-specific CD8+ Trm cells.
(A) Representative CD8+...
(A) Representative CD8+ Tsp analysis on LCMV-Arm–infected mouse spleen and IEL at day 8 (left) and day 30 (right). p.i., post infection. (B) Graph representing the analysis in A (n = 4 mice). Experiment was repeated twice; graph here represents one of the experiments. (C) Top panel shows percentage of CD8+ Tsp and NSP gp33+CD8+ T cells at day 35 after infection in different organs. Bottom panel is gated on gp33+CD8+ Tsp cells. (D) Percentage of gp33+ Trm cells in CD8+ Tsp and NSP fractions. Bar graphs represent data from 7–10 mice. Data were compiled from 3 independent experiments. *P < 0.05, **P < 0.01, ***P < 0.001, by Student’s t test.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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