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Sox2 通过控制成骨细胞谱系中的自我更新和分化来发挥独特的功能。

Distinct functions of Sox2 control self-renewal and differentiation in the osteoblast lineage.

机构信息

Department of Microbiology, NYU School of Medicine, New York, NY 10016, USA.

出版信息

Mol Cell Biol. 2011 Nov;31(22):4593-608. doi: 10.1128/MCB.05798-11. Epub 2011 Sep 19.

DOI:10.1128/MCB.05798-11
PMID:21930787
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3209254/
Abstract

The transcription factor Sox2 is a key player in the maintenance of pluripotency and "stemness." We have previously shown that Sox2 maintains self-renewal in the osteoblast lineage while inhibiting differentiation (U. Basu-Roy et al., Cell Death Differ. 17:1345-1353, 2010; A. Mansukhani, D. Ambrosetti, G. Holmes, L. Cornivelli, and C. Basilico, J. Cell Biol. 168:1065-1076, 2005). Sox2 also interferes with Wnt signaling by binding β-catenin, a central mediator of the Wnt pathway. Here we show that these multiple functions of Sox2 are encoded in distinct domains. The self-renewal function of Sox2 is dependent on its transcriptional activity and requires both its DNA-binding and C-terminal activation regions, while only the third C-terminal transactivation (TA) region is required for binding β-catenin and interfering with Wnt-induced transcription. The results of gene expression analysis upon Sox2 deletion strongly support the notion that Sox2 maintains stemness. We show also that Sox2 suppresses differentiation by attenuating Wnt signaling by posttranscriptional and transcriptional mechanisms and that adenomatous polyposis coli (APC) and GSK3β, which are negative regulators of the Wnt pathway, are direct Sox2 targets in osteoblasts. Several genes, such as the FoxP1 and BMI-1 genes, that are associated with stemness are downregulated upon Sox2 inactivation. Constitutive expression of the Polycomb complex member BMI-1 can bypass the Sox2 requirement for self-renewal but does not affect differentiation. Our results establish a connection between Sox2 and BMI-1 in maintaining self-renewal and identify BMI-1 as a key mediator of Sox2 function.

摘要

转录因子 Sox2 是维持多能性和“干性”的关键因子。我们之前的研究表明,Sox2 在维持成骨细胞系自我更新的同时抑制分化(U. Basu-Roy 等人,Cell Death Differ. 17:1345-1353, 2010;A. Mansukhani, D. Ambrosetti, G. Holmes, L. Cornivelli, and C. Basilico,J. Cell Biol. 168:1065-1076, 2005)。Sox2 还通过与β-连环蛋白(Wnt 通路的核心介质)结合来干扰 Wnt 信号。在这里,我们表明 Sox2 的这些多种功能编码在不同的结构域中。Sox2 的自我更新功能依赖于其转录活性,需要其 DNA 结合和 C 末端激活区,而仅第三个 C 末端转录激活(TA)区是与β-连环蛋白结合并干扰 Wnt 诱导的转录所必需的。Sox2 缺失后的基因表达分析结果强烈支持 Sox2 维持干性的观点。我们还表明,Sox2 通过转录后和转录机制来抑制 Wnt 信号,从而抑制分化,并且腺瘤性结肠息肉病(APC)和 GSK3β,Wnt 通路的负调节剂,是成骨细胞中 Sox2 的直接靶标。FoxP1 和 BMI-1 等与干性相关的几个基因在 Sox2 失活后下调。多梳复合物成员 BMI-1 的组成型表达可以绕过 Sox2 对自我更新的需求,但不影响分化。我们的结果在维持自我更新方面建立了 Sox2 和 BMI-1 之间的联系,并确定 BMI-1 是 Sox2 功能的关键介质。

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