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Activation of GSK3? by Sirt2 is required for early lineage commitment of mouse embryonic stem cell.


ABSTRACT: Sirt2, a member of the NAD(+)-dependent protein deacetylase family, is increasingly recognized as a critical regulator of the cell cycle, cellular necrosis and cytoskeleton organization. However, its role in embryonic stem cells (ESCs) remains unclear. Here we demonstrate that Sirt2 is up-regulated during RA (retinoic acid)-induced and embryoid body (EB) differentiation of mouse ESCs. Using lentivirus-mediated shRNA methods, we found that knockdown of Sirt2 compromises the differentiation of mouse ESCs into ectoderm while promoting mesoderm and endoderm differentiation. Knockdown of Sirt2 expression also leads to the activation of GSK3? through decreased phosphorylation of the serine at position 9 (Ser9) but not tyrosine at position 216 (Tyr216). Moreover, the constitutive activation of GSK3? during EB differentiation mimics the effect of Sirt2 knockdown, while down-regulation of GSK3? rescues the effect of Sirt2 knockdown on differentiation. In contrast to the effect on lineage differentiation, Sirt2 knockdown and GSK3? up-regulation do not change the self-renewal state of mouse ESCs. Overall, our report reveals a new function for Sirt2 in regulating the proper lineage commitment of mouse ESCs.

SUBMITTER: Si X 

PROVIDER: S-EPMC3800056 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Activation of GSK3β by Sirt2 is required for early lineage commitment of mouse embryonic stem cell.

Si Xiaoxing X   Chen Wen W   Guo Xudong X   Chen Long L   Wang Guiying G   Xu Yanxin Y   Kang Jiuhong J  

PloS one 20131018 10


Sirt2, a member of the NAD(+)-dependent protein deacetylase family, is increasingly recognized as a critical regulator of the cell cycle, cellular necrosis and cytoskeleton organization. However, its role in embryonic stem cells (ESCs) remains unclear. Here we demonstrate that Sirt2 is up-regulated during RA (retinoic acid)-induced and embryoid body (EB) differentiation of mouse ESCs. Using lentivirus-mediated shRNA methods, we found that knockdown of Sirt2 compromises the differentiation of mou  ...[more]

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