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Pitx2 同源结构域蛋白 C 末端尾巴的多功能作用。

Multifunctional role of the Pitx2 homeodomain protein C-terminal tail.

作者信息

Amendt B A, Sutherland L B, Russo A F

机构信息

Department of Physiology and Biophysics, University of Iowa, Iowa City, Iowa 52242, USA.

出版信息

Mol Cell Biol. 1999 Oct;19(10):7001-10. doi: 10.1128/MCB.19.10.7001.

DOI:10.1128/MCB.19.10.7001
PMID:10490637
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC84695/
Abstract

Pitx2 is a newly described bicoid-like homeodomain transcription factor that is defective in Rieger syndrome and shows a striking leftward developmental asymmetry. We have previously shown that Pitx2 (also called Ptx2 and RIEG) transactivates a reporter gene containing a bicoid enhancer and synergistically transactivates the prolactin promoter in the presence of the POU homeodomain protein Pit-1. In this report, we focused on the C-terminal region which is mutated in some Rieger patients and contains a highly conserved 14-amino-acid element. Deletion analysis of Pitx2 revealed that the C-terminal 39-amino-acid tail represses DNA binding activity and is required for Pitx2-Pit-1 interaction and Pit-1 synergism. Pit-1 interaction with the Pitx2 C terminus masks the inhibitory effect and promotes increased DNA binding activity. Interestingly, cotransfection of an expression vector encoding the C-terminal 39 amino acids of Pitx2 specifically inhibits Pitx2 transactivation activity. In contrast, the C-terminal 39-amino-acid peptide interacts with Pitx2 to increase its DNA binding activity. These data suggest that the C-terminal tail intrinsically inhibits the Pitx2 protein and that this inhibition can be overcome by interaction with other transcription factors to allow activation during development.

摘要

Pitx2是一种新描述的类双尾样同源结构域转录因子,在里格尔综合征中存在缺陷,并表现出明显的向左发育不对称性。我们之前已经表明,Pitx2(也称为Ptx2和RIEG)可激活含有双尾增强子的报告基因,并在POU同源结构域蛋白Pit-1存在的情况下协同激活催乳素启动子。在本报告中,我们聚焦于一些里格尔患者中发生突变的C末端区域,该区域包含一个高度保守的14个氨基酸的元件。对Pitx2的缺失分析表明,C末端39个氨基酸的尾巴可抑制DNA结合活性,并且是Pitx2与Pit-1相互作用及Pit-1协同作用所必需的。Pit-1与Pitx2 C末端的相互作用掩盖了抑制作用,并促进DNA结合活性增加。有趣的是,编码Pitx2 C末端39个氨基酸的表达载体的共转染特异性抑制了Pitx2的反式激活活性。相反,C末端39个氨基酸的肽与Pitx2相互作用以增加其DNA结合活性。这些数据表明,C末端尾巴内在地抑制Pitx2蛋白,并且这种抑制可以通过与其他转录因子相互作用来克服,从而在发育过程中实现激活。

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本文引用的文献

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