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

Tim WartewigJay C DanielsMiriam SchulzErik HameisterAbhinav JoshiJoonhee ParkEmma MorrishAnuroop Venkateswaran VenkatasubramaniFilippo M CernilogarFrits H A van HeijsterChristian HundshammerHeike SchneiderFilippos KonstantinidisJudith V GablerChristine KlementHenry KurniawanCalvin LawYujin LeeSara ChoiJoan GuitartIgnasi ForneJérôme GiustinaniMarkus MüschenSalvia JainDavid M WeinstockRoland RadNicolas OrtonneFranz SchillingGunnar SchottaAxel ImhofDirk BrennerJaehyuk ChoiJuergen Ruland
Published in: Nature cancer (2023)
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.
Keyphrases
  • transcription factor
  • gene expression
  • dna methylation
  • mouse model
  • electronic health record
  • young adults
  • small molecule
  • hodgkin lymphoma
  • protein protein
  • genome wide identification
  • childhood cancer