Fatty Acid Transport Protein 2 Reprograms Neutrophils in Cancer

Overview

Journal Nature

Specialty Science

Date 2019 Apr 19

PMID 30996346

Citations 332

Authors

Filippo Veglia

Vladimir A Tyurin

Maria Blasi

Alessandra De Leo

Andrew V Kossenkov

Laxminarasimha Donthireddy

Tsun Ki Jerrick To

Zach Schug

Subhasree Basu

Fang Wang

Emanuela Ricciotti

Concetta DiRusso

Maureen E Murphy

Robert H Vonderheide

Paul M Lieberman

Charles Mulligan

Brian Nam

Neil Hockstein

Gregory Masters

Michael Guarino

Cindy Lin

Yulia Nefedova

Paul Black

Valerian E Kagan

Dmitry I Gabrilovich

Affiliations

Soon will be listed here.

Abstract

Polymorphonuclear myeloid-derived suppressor cells (PMN-MDSCs) are pathologically activated neutrophils that are crucial for the regulation of immune responses in cancer. These cells contribute to the failure of cancer therapies and are associated with poor clinical outcomes. Despite recent advances in the understanding of PMN-MDSC biology, the mechanisms responsible for the pathological activation of neutrophils are not well defined, and this limits the selective targeting of these cells. Here we report that mouse and human PMN-MDSCs exclusively upregulate fatty acid transport protein 2 (FATP2). Overexpression of FATP2 in PMN-MDSCs was controlled by granulocyte-macrophage colony-stimulating factor, through the activation of the STAT5 transcription factor. Deletion of FATP2 abrogated the suppressive activity of PMN-MDSCs. The main mechanism of FATP2-mediated suppressive activity involved the uptake of arachidonic acid and the synthesis of prostaglandin E. The selective pharmacological inhibition of FATP2 abrogated the activity of PMN-MDSCs and substantially delayed tumour progression. In combination with checkpoint inhibitors, FATP2 inhibition blocked tumour progression in mice. Thus, FATP2 mediates the acquisition of immunosuppressive activity by PMN-MDSCs and represents a target to inhibit the functions of PMN-MDSCs selectively and to improve the efficiency of cancer therapy.

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