Pan-cancer mapping of single CD8+ T cell profiles reveals a TCF1:CXCR6 axis regulating CD28 co-stimulation and anti-tumor immunity

Katherine Tooley; Livnat Jerby; Giulia Escobar; S. Harsha Krovi; Davide Mangani; Gitanjali Dandekar; Hanning Cheng; Asaf Madi; Ella Goldschmidt; Conner Lambden; Rajesh K. Krishnan; Orit Rozenblatt-Rosen; Aviv Regev; Ana C. Anderson

doi:10.1016/j.xcrm.2024.101640

Pan-cancer mapping of single CD8⁺ T cell profiles reveals a TCF1:CXCR6 axis regulating CD28 co-stimulation and anti-tumor immunity

Katherine Tooley, Livnat Jerby^*, Giulia Escobar, S. Harsha Krovi, Davide Mangani, Gitanjali Dandekar, Hanning Cheng, Asaf Madi, Ella Goldschmidt, Conner Lambden, Rajesh K. Krishnan, Orit Rozenblatt-Rosen, Aviv Regev^*, Ana C. Anderson^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

CD8⁺ T cells must persist and function in diverse tumor microenvironments to exert their effects. Thus, understanding common underlying expression programs could better inform the next generation of immunotherapies. We apply a generalizable matrix factorization algorithm that recovers both shared and context-specific expression programs from diverse datasets to a single-cell RNA sequencing (scRNA-seq) compendium of 33,161 CD8⁺ T cells from 132 patients with seven human cancers. Our meta-single-cell analyses uncover a pan-cancer T cell dysfunction program that predicts clinical non-response to checkpoint blockade in melanoma and highlights CXCR6 as a pan-cancer marker of chronically activated T cells. Cxcr6 is trans-activated by AP-1 and repressed by TCF1. Using mouse models, we show that Cxcr6 deletion in CD8⁺ T cells increases apoptosis of PD1⁺TIM3⁺ cells, dampens CD28 signaling, and compromises tumor growth control. Our study uncovers a TCF1:CXCR6 axis that counterbalances PD1-mediated suppression of CD8⁺ cell responses and is essential for effective anti-tumor immunity.

Original language	English
Article number	101640
Journal	Cell Reports Medicine
Volume	5
Issue number	7
DOIs	https://doi.org/10.1016/j.xcrm.2024.101640
State	Published - 16 Jul 2024

Funding

Funders	Funder number
ExcepGen
Broad Institute
Ovarian Cancer Research Alliance
Human Tumor Atlas Network and Human Tumor Atlas
Syros Pharmaceuticals
Trishula Therapeutics
Neogene Therapeutics
Compass Therapeutics
SAB for Tizona Therapeutics
Massachusetts Institute of Technology
Burroughs Wellcome Fund
Howard Hughes Medical Institute
National Institutes of Health	P01CA236749, R01CA187975
CANCER RESEARCH INSTITUTE	CRI 2934

Keywords

CD28
CXCR6
T cell dysfunction
T cell exhaustion
TCF1
human
meta-analysis
pan-cancer
single cell

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.xcrm.2024.101640

Cite this

Tooley, K., Jerby, L., Escobar, G., Krovi, S. H., Mangani, D., Dandekar, G., Cheng, H., Madi, A., Goldschmidt, E., Lambden, C., Krishnan, R. K., Rozenblatt-Rosen, O., Regev, A., & Anderson, A. C. (2024). Pan-cancer mapping of single CD8⁺ T cell profiles reveals a TCF1:CXCR6 axis regulating CD28 co-stimulation and anti-tumor immunity. Cell Reports Medicine, 5(7), Article 101640. https://doi.org/10.1016/j.xcrm.2024.101640

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abstract = "CD8+ T cells must persist and function in diverse tumor microenvironments to exert their effects. Thus, understanding common underlying expression programs could better inform the next generation of immunotherapies. We apply a generalizable matrix factorization algorithm that recovers both shared and context-specific expression programs from diverse datasets to a single-cell RNA sequencing (scRNA-seq) compendium of 33,161 CD8+ T cells from 132 patients with seven human cancers. Our meta-single-cell analyses uncover a pan-cancer T cell dysfunction program that predicts clinical non-response to checkpoint blockade in melanoma and highlights CXCR6 as a pan-cancer marker of chronically activated T cells. Cxcr6 is trans-activated by AP-1 and repressed by TCF1. Using mouse models, we show that Cxcr6 deletion in CD8+ T cells increases apoptosis of PD1+TIM3+ cells, dampens CD28 signaling, and compromises tumor growth control. Our study uncovers a TCF1:CXCR6 axis that counterbalances PD1-mediated suppression of CD8+ cell responses and is essential for effective anti-tumor immunity.",

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author = "Katherine Tooley and Livnat Jerby and Giulia Escobar and Krovi, {S. Harsha} and Davide Mangani and Gitanjali Dandekar and Hanning Cheng and Asaf Madi and Ella Goldschmidt and Conner Lambden and Krishnan, {Rajesh K.} and Orit Rozenblatt-Rosen and Aviv Regev and Anderson, {Ana C.}",

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Tooley, K, Jerby, L, Escobar, G, Krovi, SH, Mangani, D, Dandekar, G, Cheng, H, Madi, A, Goldschmidt, E, Lambden, C, Krishnan, RK, Rozenblatt-Rosen, O, Regev, A & Anderson, AC 2024, 'Pan-cancer mapping of single CD8⁺ T cell profiles reveals a TCF1:CXCR6 axis regulating CD28 co-stimulation and anti-tumor immunity', Cell Reports Medicine, vol. 5, no. 7, 101640. https://doi.org/10.1016/j.xcrm.2024.101640

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T1 - Pan-cancer mapping of single CD8+ T cell profiles reveals a TCF1:CXCR6 axis regulating CD28 co-stimulation and anti-tumor immunity

AU - Tooley, Katherine

AU - Jerby, Livnat

AU - Escobar, Giulia

AU - Krovi, S. Harsha

AU - Mangani, Davide

AU - Dandekar, Gitanjali

AU - Cheng, Hanning

AU - Madi, Asaf

AU - Goldschmidt, Ella

AU - Lambden, Conner

AU - Krishnan, Rajesh K.

AU - Rozenblatt-Rosen, Orit

AU - Regev, Aviv

AU - Anderson, Ana C.

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N2 - CD8+ T cells must persist and function in diverse tumor microenvironments to exert their effects. Thus, understanding common underlying expression programs could better inform the next generation of immunotherapies. We apply a generalizable matrix factorization algorithm that recovers both shared and context-specific expression programs from diverse datasets to a single-cell RNA sequencing (scRNA-seq) compendium of 33,161 CD8+ T cells from 132 patients with seven human cancers. Our meta-single-cell analyses uncover a pan-cancer T cell dysfunction program that predicts clinical non-response to checkpoint blockade in melanoma and highlights CXCR6 as a pan-cancer marker of chronically activated T cells. Cxcr6 is trans-activated by AP-1 and repressed by TCF1. Using mouse models, we show that Cxcr6 deletion in CD8+ T cells increases apoptosis of PD1+TIM3+ cells, dampens CD28 signaling, and compromises tumor growth control. Our study uncovers a TCF1:CXCR6 axis that counterbalances PD1-mediated suppression of CD8+ cell responses and is essential for effective anti-tumor immunity.

AB - CD8+ T cells must persist and function in diverse tumor microenvironments to exert their effects. Thus, understanding common underlying expression programs could better inform the next generation of immunotherapies. We apply a generalizable matrix factorization algorithm that recovers both shared and context-specific expression programs from diverse datasets to a single-cell RNA sequencing (scRNA-seq) compendium of 33,161 CD8+ T cells from 132 patients with seven human cancers. Our meta-single-cell analyses uncover a pan-cancer T cell dysfunction program that predicts clinical non-response to checkpoint blockade in melanoma and highlights CXCR6 as a pan-cancer marker of chronically activated T cells. Cxcr6 is trans-activated by AP-1 and repressed by TCF1. Using mouse models, we show that Cxcr6 deletion in CD8+ T cells increases apoptosis of PD1+TIM3+ cells, dampens CD28 signaling, and compromises tumor growth control. Our study uncovers a TCF1:CXCR6 axis that counterbalances PD1-mediated suppression of CD8+ cell responses and is essential for effective anti-tumor immunity.

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