Serine and glycine are essential for human muscle progenitor cell population expansion

Abstract

SummarySkeletal muscle regeneration is reliant on a population of muscle specific adult stem cells (muscle progenitor cells; MPCs). During regeneration, the MPC population undergoes a transient and rapid period of population expansion, which is necessary to repair damaged myofibers and restore muscle homeostasis. Much research has focused on the age-related accumulation of negative regulators of regeneration, while the age-related decline of nutrient and metabolic determinants of the regenerative process needs examination. We hypothesized that older individuals, a population that is at risk for protein malnutrition, have diminished availability of amino acids that are necessary for MPC function. Here, we identified that levels of the non-essential amino acid serine are reduced in the skeletal muscle of healthy, older individuals. Furthermore, using stable-isotope tracing studies, we demonstrate that primary, human MPCs (hMPCs) exhibit a limited capacity forde novobiosynthesis of serine and the closely related amino acid glycine. We identified that serine and glycine are essential forhMPC proliferation and, therefore, population expansion. Serine and glycine were necessary to support synthesis of the intracellular antioxidant glutathione, and restriction of serine and glycine was sensed in an EIF2α-dependent manner resulting in cell cycle arrest in G0/G1. In conclusion, we elucidate that, despite an absolute requirement of serine/glycine forhMPC proliferation, availability of serine in the skeletal muscle microenvironment is limited to thehMPCs of healthy older adults and is a likely underlying mechanism for impaired skeletal muscle regeneration with advancing age.Graphical Abstract