PD-1 instructs a tumor-suppressive metabolic program that restricts glycolysis and restrains AP-1 activity in T cell lymphoma

Tim Wartewig; Jay Daniels; Miriam Schulz; Erik Hameister; Abhinav Joshi; Joonhee Park; Emma Morrish; Anuroop Venkateswaran Venkatasubramani; Filippo M. Cernilogar; Frits H. A. van Heijster; Christian Hundshammer; Heike Schneider; Filippos Konstantinidis; Judith V. Gabler; Christine Klement; Henry Kurniawan; Calvin Law; Yujin Lee; Sara Choi; Joan Guitart; Ignasi Forné; Jérôme Giustinani; Markus Müschen; Salvia Jain; David M. Weinstock; Roland Rad; Nicolás Ortonne; Franz Schilling; Gunnar Schotta; Axel Imhof; Dirk Brenner; Jaehyuk Choi; Jürgen Ruland

doi:10.1038/s43018-023-00635-7

PD-1 instructs a tumor-suppressive metabolic program that restricts glycolysis and restrains AP-1 activity in T cell lymphoma

Tim Wartewig(Yale University), Jay Daniels(Northwestern University), Miriam Schulz(Technical University of Munich), Erik Hameister(Technical University of Munich), Abhinav Joshi(Technical University of Munich), Joonhee Park(Northwestern University), Emma Morrish(German Cancer Research Center), Anuroop Venkateswaran Venkatasubramani(Center for Integrated Protein Science Munich), Filippo M. Cernilogar(Ludwig-Maximilians-Universität München), Frits H. A. van Heijster(Technical University of Munich), Christian Hundshammer(Technical University of Munich), Heike Schneider(Technical University of Munich), Filippos Konstantinidis(Technical University of Munich), Judith V. Gabler(Technical University of Munich), Christine Klement(Technical University of Munich), Henry Kurniawan(University of Luxembourg), Calvin Law(Northwestern University), Yujin Lee(Northwestern University), Sara Choi(Northwestern University), Joan Guitart(Northwestern University), Ignasi Forné(Center for Integrated Protein Science Munich), Jérôme Giustinani(Inserm), Markus Müschen(Yale University), Salvia Jain(Harvard University), David M. Weinstock(Merck & Co., Inc., Rahway, NJ, USA (United States)), Roland Rad(Technical University of Munich), Nicolás Ortonne(Inserm), Franz Schilling(Technical University of Munich), Gunnar Schotta(Ludwig-Maximilians-Universität München), Axel Imhof(Center for Integrated Protein Science Munich), Dirk Brenner(University of Southern Denmark), Jaehyuk Choi(Northwestern University), Jürgen Ruland(German Cancer Research Center)

Nature Cancer

September 18, 2023

10.1038/s43018-023-00635-7

Cited by 51Open Access

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Abstract

The PDCD1-encoded immune checkpoint receptor PD-1 is a key tumor suppressor in T cells that is recurrently inactivated in T cell non-Hodgkin lymphomas (T-NHLs). The highest frequencies of PDCD1 deletions are detected in advanced disease, predicting inferior prognosis. However, the tumor-suppressive mechanisms of PD-1 signaling remain unknown. Here, using tractable mouse models for T-NHL and primary patient samples, we demonstrate that PD-1 signaling suppresses T cell malignancy by restricting glycolytic energy and acetyl coenzyme A (CoA) production. In addition, PD-1 inactivation enforces ATP citrate lyase (ACLY) activity, which generates extramitochondrial acetyl-CoA for histone acetylation to enable hyperactivity of activating protein 1 (AP-1) transcription factors. Conversely, pharmacological ACLY inhibition impedes aberrant AP-1 signaling in PD-1-deficient T-NHLs and is toxic to these cancers. Our data uncover genotype-specific vulnerabilities in PDCD1-mutated T-NHL and identify PD-1 as regulator of AP-1 activity.

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