Acetylcarnitine shuttling links mitochondrial metabolism to histone acetylation and lipogenesis

Luke T Izzo, Sophie Trefely, Christina Demetriadou, Jack M Drummond, Takuya Mizukami, Nina Kuprasertkul, Aimee T Farria, Phuong T T Nguyen, Nivitha Murali, Lauren Reich, Daniel S Kantner, Joshua Shaffer, Hayley Affronti, Alessandro Carrer, Andrew Andrews, Brian C Capell, Nathaniel W Snyder, Kathryn E Wellen

Research output: Contribution to journalArticlepeer-review

26 Scopus citations

Abstract

The metabolite acetyl-CoA is necessary for both lipid synthesis in the cytosol and histone acetylation in the nucleus. The two canonical precursors to acetyl-CoA in the nuclear-cytoplasmic compartment are citrate and acetate, which are processed to acetyl-CoA by ATP-citrate lyase (ACLY) and acyl-CoA synthetase short-chain 2 (ACSS2), respectively. It is unclear whether other substantial routes to nuclear-cytosolic acetyl-CoA exist. To investigate this, we generated cancer cell lines lacking both ACLY and ACSS2 [double knockout (DKO) cells]. Using stable isotope tracing, we show that both glucose and fatty acids contribute to acetyl-CoA pools and histone acetylation in DKO cells and that acetylcarnitine shuttling can transfer two-carbon units from mitochondria to cytosol. Further, in the absence of ACLY, glucose can feed fatty acid synthesis in a carnitine responsive and carnitine acetyltransferase (CrAT)-dependent manner. The data define acetylcarnitine as an ACLY- and ACSS2-independent precursor to nuclear-cytosolic acetyl-CoA that can support acetylation, fatty acid synthesis, and cell growth.

Original languageEnglish
Article numbereadf0115
Pages (from-to)eadf0115
JournalScience Advances
Volume9
Issue number18
DOIs
StatePublished - Apr 3 2023

Keywords

  • Lipogenesis/genetics
  • Histones/metabolism
  • Acetylcarnitine/metabolism
  • Acetylation
  • Acetyl Coenzyme A/metabolism
  • Fatty Acids/metabolism
  • Mitochondria/metabolism
  • Glucose/metabolism

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