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Disruption of hepatic mitochondrial pyruvate and amino acid metabolism impairs gluconeogenesis and endurance exercise capacity in mice

Michael R. Martino, Mohammad Habibi, Daniel Ferguson, Rita T. Brookheart, John P. Thyfault, Gretchen A. Meyer, Louise Lantier, Curtis C. Hughey, Brian N. Finck

2024American Journal of Physiology-Endocrinology and Metabolism11 citationsDOIOpen Access PDF

Abstract

Martino and colleagues examined the effects of inhibiting hepatic gluconeogenesis on exercise performance and systemic metabolism during treadmill exercise in mice. Combined inhibition of gluconeogenesis from lactate/pyruvate and alanine impaired exercise endurance and led to hypoglycemia during and after exercise. In contrast, suppressing either pyruvate-mediated or alanine-mediated gluconeogenesis alone had no effect on these parameters. These findings provide new insight into the molecular nodes that coordinate the metabolic responses of muscle and liver during exercise.

Topics & Concepts

GluconeogenesisAlanineEndocrinologyInternal medicineMetabolismEndurance trainingHypoglycemiaChemistryPyruvic acidBiologyBiochemistryAmino acidMedicineInsulinAdipose Tissue and MetabolismBiochemical Acid Research StudiesMuscle metabolism and nutrition
Disruption of hepatic mitochondrial pyruvate and amino acid metabolism impairs gluconeogenesis and endurance exercise capacity in mice | Litcius