ATP-Citrate Lyase Controls a Glucose-to-Acetate Metabolic Switch

Steven Zhao, AnnMarie Torres, Ryan A Henry, Sophie Trefely, Martina Wallace, Joyce V Lee, Alessandro Carrer, Arjun Sengupta, Sydney L Campbell, Yin-Ming Kuo, Alexander J Frey, Noah Meurs, John M Viola, Ian A Blair, Aalim M Weljie, Christian M Metallo, Nathaniel W Snyder, Andrew J Andrews, Kathryn E Wellen

Research output: Contribution to journalArticlepeer-review

265 Scopus citations

Abstract

Mechanisms of metabolic flexibility enable cells to survive under stressful conditions and can thwart therapeutic responses. Acetyl-coenzyme A (CoA) plays central roles in energy production, lipid metabolism, and epigenomic modifications. Here, we show that, upon genetic deletion of Acly, the gene coding for ATP-citrate lyase (ACLY), cells remain viable and proliferate, although at an impaired rate. In the absence of ACLY, cells upregulate ACSS2 and utilize exogenous acetate to provide acetyl-CoA for de novo lipogenesis (DNL) and histone acetylation. A physiological level of acetate is sufficient for cell viability and abundant acetyl-CoA production, although histone acetylation levels remain low in ACLY-deficient cells unless supplemented with high levels of acetate. ACLY-deficient adipocytes accumulate lipid in vivo, exhibit increased acetyl-CoA and malonyl-CoA production from acetate, and display some differences in fatty acid content and synthesis. Together, these data indicate that engagement of acetate metabolism is a crucial, although partial, mechanism of compensation for ACLY deficiency.

Original languageEnglish
Pages (from-to)1037-1052
Number of pages16
JournalCell Reports
Volume17
Issue number4
DOIs
StatePublished - Oct 18 2016
Externally publishedYes

Keywords

  • ATP Citrate (pro-S)-Lyase/deficiency
  • Acetate-CoA Ligase/metabolism
  • Acetates/metabolism
  • Acetyl Coenzyme A/metabolism
  • Acetylation
  • Adipocytes/drug effects
  • Animals
  • Cell Proliferation/drug effects
  • Cell Survival/drug effects
  • Fibroblasts/drug effects
  • Gene Deletion
  • Glucose/metabolism
  • Histones/metabolism
  • Lipid Metabolism/drug effects
  • Lipids/biosynthesis
  • Male
  • Mice
  • Up-Regulation/drug effects

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