Psat1-generated α-ketoglutarate and Glutamine Promote Muscle Stem Cell Activation and Regeneration

Overview

Journal Genes Dev

Specialty Molecular Biology

Date 2024 Mar 7

PMID 38453480

Authors

Veronica Ciuffoli

Xuesong Feng

Kan Jiang

Natalia Acevedo-Luna

Kyung Dae Ko

A Hong Jun Wang

Giulia Riparini

Mamduh Khateb

Brian Glancy

Stefania DellOrso

Vittorio Sartorelli

Affiliations

Soon will be listed here.

Abstract

By satisfying bioenergetic demands, generating biomass, and providing metabolites serving as cofactors for chromatin modifiers, metabolism regulates adult stem cell biology. Here, we report that a branch of glycolysis, the serine biosynthesis pathway (SBP), is activated in regenerating muscle stem cells (MuSCs). Gene inactivation and metabolomics revealed that Psat1, one of the three SBP enzymes, controls MuSC activation and expansion of myogenic progenitors through production of the metabolite α-ketoglutarate (α-KG) and α-KG-generated glutamine. ablation resulted in defective expansion of MuSCs and impaired regeneration. Psat1, α-KG, and glutamine were reduced in MuSCs of old mice. α-KG or glutamine re-established appropriate muscle regeneration of adult conditional mice and of old mice. These findings contribute insights into the metabolic role of Psat1 during muscle regeneration and suggest α-KG and glutamine as potential therapeutic interventions to ameliorate muscle regeneration during aging.

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