Literature DB >> 28436968

Metabolic control of primed human pluripotent stem cell fate and function by the miR-200c-SIRT2 axis.

Young Cha1, Min-Joon Han1, Hyuk-Jin Cha2, Janet Zoldan3, Alison Burkart4, Jin Hyuk Jung1, Yongwoo Jang1, Chun-Hyung Kim1, Ho-Chang Jeong2, Byung-Gyu Kim5, Robert Langer3, C Ronald Kahn4, Leonard Guarente6, Kwang-Soo Kim1.   

Abstract

A hallmark of cancer cells is the metabolic switch from oxidative phosphorylation (OXPHOS) to glycolysis, a phenomenon referred to as the 'Warburg effect', which is also observed in primed human pluripotent stem cells (hPSCs). Here, we report that downregulation of SIRT2 and upregulation of SIRT1 is a molecular signature of primed hPSCs and that SIRT2 critically regulates metabolic reprogramming during induced pluripotency by targeting glycolytic enzymes including aldolase, glyceraldehyde-3-phosphate dehydrogenase, phosphoglycerate kinase, and enolase. Remarkably, knockdown of SIRT2 in human fibroblasts resulted in significantly decreased OXPHOS and increased glycolysis. In addition, we found that miR-200c-5p specifically targets SIRT2, downregulating its expression. Furthermore, SIRT2 overexpression in hPSCs significantly affected energy metabolism, altering stem cell functions such as pluripotent differentiation properties. Taken together, our results identify the miR-200c-SIRT2 axis as a key regulator of metabolic reprogramming (Warburg-like effect), via regulation of glycolytic enzymes, during human induced pluripotency and pluripotent stem cell function.

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Year:  2017        PMID: 28436968      PMCID: PMC5545746          DOI: 10.1038/ncb3517

Source DB:  PubMed          Journal:  Nat Cell Biol        ISSN: 1465-7392            Impact factor:   28.824


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