FOXP1 Interacts with MyoD to Repress its Transcription and Myoblast Conversion

Journal of cellular signaling Pub Date : 2021-01-11 DOI:10.33696/SIGNALING.2.032

W. Wright, Chuan Li, Chang-xue Zheng, Haley O. Tucker

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引用次数: 2

Abstract

Forkhead transcription factors (TFs) often dimerize outside their extensive family, whereas bHLH transcription factors typically dimerize with E12/E47. Based on structural similarities, we predicted that a member of the former, Forkhead Box P1 (FOXP1), might heterodimerize with a member of the latter, MYOD1 (MyoD). Data shown here support this hypothesis and further demonstrate the specificity of this forkhead/myogenic interaction among other myogenic regulatory factors. We found that FOXP1-MyoD heterodimerization compromises the ability of MyoD to bind to E-boxes and to transactivate E box- containing promoters. We observed that FOXP1 is required for the full ability of MyoD to convert fibroblasts into myotubules. We provide a model in which FOXP1 displaces ID and E12/E47 to repress MyoD during the proliferative phase of myoblast differentiation. These data identify FOXP1 as a hitherto unsuspected transcriptional repressor of MyoD. We suggest that isolation of paired E-box and forkhead sites within 1 turn helical spacings provides potential for cooperative interactions among heretofore distinct classes of transcription factors.

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FOXP1与MyoD相互作用抑制其转录和成肌细胞转化

叉头转录因子(TFs)通常在其广泛的家族外二聚化，而bHLH转录因子通常与E12/E47二聚化。基于结构相似性，我们预测前者的一个成员叉头盒P1 (FOXP1)可能与后者的一个成员MYOD1 (MyoD)异二聚。这里显示的数据支持这一假设，并进一步证明了叉头/肌原性相互作用在其他肌原性调节因子中的特异性。我们发现FOXP1-MyoD异二聚化损害了MyoD与E-box结合和反激活含E-box启动子的能力。我们观察到FOXP1是MyoD将成纤维细胞转化为肌小管的全部能力所必需的。我们提供了FOXP1在成肌细胞分化增殖阶段取代ID和E12/E47抑制MyoD的模型。这些数据表明FOXP1是迄今为止未知的MyoD转录抑制因子。我们认为，在1转螺旋间隔内分离成对的E-box和叉头位点，为迄今为止不同类别的转录因子之间的合作相互作用提供了潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of cellular signaling

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