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Skeletal muscle biomass as an underappreciated fate of glucose.

Created on 06 Jul 2026

Authors

Henning Wackerhage, Moritz Eggelbusch, Juha J Hulmi, Sakari Mäntyselkä

Published in

American journal of physiology. Cell physiology. Jul 06, 2026. Epub Jul 06, 2026.

Abstract

Glucose is traditionally viewed as a substrate for ATP production and glycogen storage in skeletal muscle. Here, we review evidence that glucose also serves as a building block for biomass synthesis in proliferating muscle satellite (stem) cells and hypertrophying skeletal muscle fibers, drawing parallels to anabolic metabolic reprogramming in cancer cells. In cancer and other growing cells, increased glucose uptake, aerobic glycolysis (Warburg effect), and the TCA cycle provide substrates for anabolic pathways that generate macromolecules required for growth and proliferation. Radiotracer studies in mammalian cancer and muscle cells demonstrate that approximately 8-15% of the cell dry mass originates from glucose. Mechanistic insights, obtained predominantly from cell culture models, indicate that glucose-derived glycolytic and TCA cycle intermediates provide substrates for serine synthesis and the pentose phosphate pathway, glycine and one-carbon metabolism, non-essential amino acid synthesis, nucleotide and lipid synthesis as well as for epigenetic methylation and acetylation. We further review evidence that human resistance training, hypertrophy through muscle-specific expression of Akt1 in mice, loss or inhibition of myostatin/activin signaling, and other hypertrophy-inducing interventions improve glucose homeostasis under conditions of obesity, insulin resistance, and type 2 diabetes. We discuss the possibility that glucose incorporation into biomass contributes to this effect.

PMID:
42405421
Bibliographic data and abstract were imported from PubMed on 06 Jul 2026.

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