Glutamine Metabolism Regulates the Pluripotency Transcription Factor OCT4

•Glutamine metabolism regulates the pluripotency of human embryonic stem cells (hESCs)•OCT4 undergoes cysteine oxidation and degradation during glutamine withdrawal•Metabolic cues act in concert with growth factors to regulate stem cell differentiation•Glutamine withdrawal enhances the angiogenic capacity of ESC-derived endothelial cells

SummaryThe molecular mechanisms underlying the regulation of pluripotency by cellular metabolism in human embryonic stem cells (hESCs) are not fully understood. We found that high levels of glutamine metabolism are essential to prevent degradation of OCT4, a key transcription factor regulating hESC pluripotency. Glutamine withdrawal depletes the endogenous antioxidant glutathione (GSH), which results in the oxidation of OCT4 cysteine residues required for its DNA binding and enhanced OCT4 degradation. The emergence of the OCT4lo cell population following glutamine withdrawal did not result in greater propensity for cell death. Instead, glutamine withdrawal during vascular differentiation of hESCs generated cells with greater angiogenic capacity, thus indicating that modulating glutamine metabolism enhances the differentiation and functional maturation of cells. These findings demonstrate that the pluripotency transcription factor OCT4 can serve as a metabolic-redox sensor in hESCs and that metabolic cues can act in concert with growth factor signaling to orchestrate stem cell differentiation.

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