Lysophosphatidic acid modulates CD8 T cell immunosurveillance and metabolism to impair anti-tumor immunity

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作者
Jacqueline A. Turner
Malia A. Fredrickson
Marc D’Antonio
Elizabeth Katsnelson
Morgan MacBeth
Robert Van Gulick
Tugs-Saikhan Chimed
Martin McCarter
Angelo D’Alessandro
William A. Robinson
Kasey L. Couts
Roberta Pelanda
Jared Klarquist
Richard P. Tobin
Raul M. Torres
机构
[1] University of Colorado School of Medicine,Department of Immunology and Microbiology
[2] Anschutz Medical Campus,Medical Scientist Training Program
[3] University of Colorado School of Medicine,Division of Surgical Oncology, Department of Surgery
[4] Anschutz Medical Campus,Division of Medical Oncology, Department of Medicine
[5] University of Colorado School of Medicine,Department of Biochemistry and Molecular Genetics
[6] Anschutz Medical Campus,undefined
[7] University of Colorado School of Medicine,undefined
[8] Anschutz Medical Campus,undefined
[9] University of Colorado School of Medicine,undefined
[10] Anschutz Medical Campus,undefined
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Nature Communications | / 14卷
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摘要
Lysophosphatidic acid (LPA) is a bioactive lipid which increases in concentration locally and systemically across different cancer types. Yet, the exact mechanism(s) of how LPA affects CD8 T cell immunosurveillance during tumor progression remain unknown. We show LPA receptor (LPAR) signaling by CD8 T cells promotes tolerogenic states via metabolic reprogramming and potentiating exhaustive-like differentiation to modulate anti-tumor immunity. We found LPA levels predict response to immunotherapy and Lpar5 signaling promotes cellular states associated with exhausted phenotypes on CD8 T cells. Importantly, we show that Lpar5 regulates CD8 T cell respiration, proton leak, and reactive oxygen species. Together, our findings reveal that LPA serves as a lipid-regulated immune checkpoint by modulating metabolic efficiency through LPAR5 signaling on CD8 T cells. Our study offers key insights into the mechanisms governing adaptive anti-tumor immunity and demonstrates LPA could be exploited as a T cell directed therapy to improve dysfunctional anti-tumor immunity.
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