Platelets Subvert T Cell Immunity Against Cancer Via GARP-TGFβ Axis

Overview

Journal Sci Immunol

Specialty Allergy & Immunology

Date 2017 Aug 2

PMID 28763790

Citations 172

Authors

Saleh Rachidi

Alessandra Metelli

Brian Riesenberg

Bill X Wu

Michelle H Nelson

Caroline Wallace

Chrystal M Paulos

Mark P Rubinstein

Elizabeth Garrett-Mayer

Mirko Hennig

Daniel W Bearden

Yi Yang

Bei Liu

Zihai Li

Affiliations

Soon will be listed here.

Abstract

Cancer-associated thrombocytosis has long been linked to poor clinical outcome, but the underlying mechanism is enigmatic. We hypothesized that platelets promote malignancy and resistance to therapy by dampening host immunity. We show that genetic targeting of platelets enhances adoptive T cell therapy of cancer. An unbiased biochemical and structural biology approach established transforming growth factor β (TGFβ) and lactate as major platelet-derived soluble factors to obliterate CD4 and CD8 T cell functions. Moreover, we found that platelets are the dominant source of functional TGFβ systemically as well as in the tumor microenvironment through constitutive expression of the TGFβ-docking receptor glycoprotein A repetitions predominant (GARP) rather than secretion of TGFβ per se. Platelet-specific deletion of the GARP-encoding gene blunted TGFβ activity at the tumor site and potentiated protective immunity against both melanoma and colon cancer. Last, this study shows that T cell therapy of cancer can be substantially improved by concurrent treatment with readily available antiplatelet agents. We conclude that platelets constrain T cell immunity through a GARP-TGFβ axis and suggest a combination of immunotherapy and platelet inhibitors as a therapeutic strategy against cancer.

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