Journal of Lipid Research (Jun 2022)

Direct anabolic metabolism of three-carbon propionate to a six-carbon metabolite occurs in vivo across tissues and species

  • Mary T. Doan,
  • Michael D. Neinast,
  • Erika L. Varner,
  • Kenneth C. Bedi, Jr.,
  • David Bartee,
  • Helen Jiang,
  • Sophie Trefely,
  • Peining Xu,
  • Jay P. Singh,
  • Cholsoon Jang,
  • J. Eduardo Rame,
  • Donita C. Brady,
  • Jordan L. Meier,
  • Kenneth B. Marguiles,
  • Zoltan Arany,
  • Nathaniel W. Snyder

Journal volume & issue
Vol. 63, no. 6
p. 100224

Abstract

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Anabolic metabolism of carbon in mammals is mediated via the one- and two-carbon carriers S-adenosyl methionine and acetyl-coenzyme A. In contrast, anabolic metabolism of three-carbon units via propionate has not been shown to extensively occur. Mammals are primarily thought to oxidize the three-carbon short chain fatty acid propionate by shunting propionyl-CoA to succinyl-CoA for entry into the TCA cycle. Here, we found that this may not be absolute as, in mammals, one nonoxidative fate of propionyl-CoA is to condense to two three-carbon units into a six-carbon trans-2-methyl-2-pentenoyl-CoA (2M2PE-CoA). We confirmed this reaction pathway using purified protein extracts provided limited substrates and verified the product via LC-MS using a synthetic standard. In whole-body in vivo stable isotope tracing following infusion of 13C-labeled valine at steady state, 2M2PE-CoA was found to form via propionyl-CoA in multiple murine tissues, including heart, kidney, and to a lesser degree, in brown adipose tissue, liver, and tibialis anterior muscle. Using ex vivo isotope tracing, we found that 2M2PE-CoA also formed in human myocardial tissue incubated with propionate to a limited extent. While the complete enzymology of this pathway remains to be elucidated, these results confirm the in vivo existence of at least one anabolic three- to six-carbon reaction conserved in humans and mice that utilizes propionate.

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