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The intestine is a major contributor to circulating succinate in mice

Wenxin Tong, Sarah Anissa Hannou, You Wang, Inna Astapova, Ashot Sargsyan, Ruby Monn, Venkataramana Thiriveedi, Diana Li, Jessica R. McCann, John F. Rawls, Jatin Roper, Guofang Zhang, Mark A. Herman

2022The FASEB Journal25 citationsDOIOpen Access PDF

Abstract

The tricarboxylic acid (TCA) cycle is the epicenter of cellular aerobic metabolism. TCA cycle intermediates facilitate energy production and provide anabolic precursors, but also function as intra- and extracellular metabolic signals regulating pleiotropic biological processes. Despite the importance of circulating TCA cycle metabolites as signaling molecules, the source of circulating TCA cycle intermediates remains uncertain. We observe that in mice, the concentration of TCA cycle intermediates in the portal blood exceeds that in tail blood indicating that the gut is a major contributor to circulating TCA cycle metabolites. With a focus on succinate as a representative of a TCA cycle intermediate with signaling activities and using a combination of gut microbiota depletion mouse models and isotopomer tracing, we demonstrate that intestinal microbiota is not a major contributor to circulating succinate. Moreover, we demonstrate that endogenous succinate production is markedly higher than intestinal succinate absorption in normal physiological conditions. Altogether, these results indicate that endogenous succinate production within the intestinal tissue is a major physiological source of circulating succinate. These results provide a foundation for an investigation into the role of the intestine in regulating circulating TCA cycle metabolites and their potential signaling effects on health and disease.

Topics & Concepts

Citric acid cycleTricarboxylic acidMetabolismBiochemistryMetabolic pathwayEndogenyCatabolismBiologyGluconeogenesisChemistryGut microbiota and healthDiet and metabolism studiesMetabolomics and Mass Spectrometry Studies
The intestine is a major contributor to circulating succinate in mice | Litcius