西亚试剂：HIF1α induced switch from bivalent to exclusively glycolyti

HIF1α induced switch from bivalent to exclusively glycolytic metabolism during ESC-to-EpiSC/hESC transition.

Wenyu Zhou, Michael Choi, Daciana Margineantu, Lilyana Margaretha, Jennifer Hesson, Christopher Cavanaugh, C Anthony Blau, Marshall S Horwitz, Hannele Ruohola-Baker, David Hockenbery, Carol Ware.

The function of metabolic state in stemness is poorly understood. Mouse embryonic stem cells (ESC) and epiblast stem cells (EpiSC) are at distinct pluripotent states representing the inner cell mass (ICM) and epiblast embryos. Human embryonic stem cells (hESC) are similar to EpiSC stage. We now show a dramatic metabolic difference between these two stages. EpiSC/hESC are highly glycolytic, while ESC are bivalent in their energy production, dynamically switching from glycolysis to mitochondrial respiration on demand. Despite having a more developed and expanding mitochondrial content, EpiSC/hESC have low mitochondrial respiratory capacity due to low cytochrome c oxidase (COX) expression. Similarly, in vivo epiblasts suppress COX levels. These data reveal EpiSC/hESC functional similarity to the glycolytic phenotype in cancer (Warburg effect). We further show that hypoxia-inducible factor 1α (HIF1α) is sufficient to drive ESC to a glycolytic Activin/Nodal-dependent EpiSC-like stage. This metabolic switch during early stem-cell development may be deterministic.

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