Stem Cell Reports (Aug 2019)
Elevated Exogenous Pyruvate Potentiates Mesodermal Differentiation through Metabolic Modulation and AMPK/mTOR Pathway in Human Embryonic Stem Cells
Abstract
Summary: Pyruvate is a key metabolite in glycolysis and the tricarboxylic acid (TCA) cycle. Exogenous pyruvate modulates metabolism, provides cellular protection, and is essential for the maintenance of human preimplantation embryos and human embryonic stem cells (hESCs). However, little is known about how pyruvate contributes to cell-fate determination during epiblast stage. In this study, we used hESCs as a model to demonstrate that elevated exogenous pyruvate shifts metabolic balance toward oxidative phosphorylation in both maintenance and differentiation conditions. During differentiation, pyruvate potentiates mesoderm and endoderm lineage specification. Pyruvate production and its mitochondrial metabolism are required in BMP4-induced mesoderm differentiation. However, the TCA-cycle metabolites do not have the same effect as pyruvate on differentiation. Further study shows that pyruvate increases AMP/ATP ratio, activates AMPK, and modulates the mTOR pathway to enhance mesoderm differentiation. This study reveals that exogenous pyruvate not only controls metabolism but also modulates signaling pathways in hESC differentiation. : In this report, Chen and colleagues demonstrate that pyruvate promotes mesoderm differentiation in human embryonic stem cells. Pyruvate elevates TCA-cycle metabolism and modulates AMPK and mTOR pathways to promote BMP4-induced mesoderm differentiation. This discovery highlights that pyruvate as a common metabolite can regulate signaling pathways in cell-fate determination. Keywords: hESCs, pyruvate, BMP4, glycolysis, TCA cycle, AMPK, WNT, metabolism, mesoderm, differentiation
