p53 coordinates glucose and choline metabolism during the mesendoderm differentiation of human embryonic stem cells
Gaoyang Zhu, Ying Yue, Kaiyuan Ji, Xinyue Duan, Taoyi Mai, Jin‐Chul Kim, Qingjiao Li, Lili Yu, Yang Xu
Abstract
Metabolism plays crucial roles in the fate decision of human embryonic stem cells (hESCs). Here, we show that the depletion of p53 in hESCs enhances glycolysis and reduces oxidative phosphorylation, and delays mesendoderm differentiation of hESCs. More intriguingly, the disruption of p53 in hESCs leads to dramatic upregulation of phosphatidylcholine and decrease of total choline in both pluripotent and differentiated state of hESCs, suggesting abnormal choline metabolism in the absence of p53. Collectively, our study reveals the indispensable role of p53 in orchestrating both glucose and lipid metabolism to maintain proper hESC identity.
Topics & Concepts
BiologyEmbryonic stem cellCholineGlycolysisCell biologyDownregulation and upregulationLipid metabolismCellular differentiationOxidative phosphorylationPhosphatidylcholineInduced pluripotent stem cellStem cellMetabolismBiochemistryPhospholipidGeneMembranePluripotent Stem Cells ResearchCRISPR and Genetic EngineeringReproductive Biology and Fertility