核小体组装蛋白与p300/CREB结合蛋白家族共激活因子之间的功能相互作用。

Functional interaction between nucleosome assembly proteins and p300/CREB-binding protein family coactivators.

作者信息

Shikama N, Chan H M, Krstic-Demonacos M, Smith L, Lee C W, Cairns W, La Thangue N B

机构信息

Division of Biochemistry and Molecular Biology, University of Glasgow, Glasgow G12 8QQ, United Kingdom.

出版信息

Mol Cell Biol. 2000 Dec;20(23):8933-43. doi: 10.1128/MCB.20.23.8933-8943.2000.

DOI:10.1128/MCB.20.23.8933-8943.2000

PMID:11073993

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC86548/

Abstract

The p300/CREB-binding protein (CBP) family of proteins consists of coactivators that influence the activity of a wide variety of transcription factors. Although the mechanisms that allow p300/CBP proteins to achieve transcriptional control are not clear, it is believed that the regulation of chromatin is an important aspect of the process. Here, we describe a new level of p300-dependent control mediated through the functional interaction between p300/CBP and members of the family of nucleosome assembly proteins (NAP), which includes NAP1, NAP2, and TAF1. We find that NAP proteins, which have previously been implicated in the regulation of transcription factor binding to chromatin, augment the activity of different p300 targets, including p53 and E2F, through a process that is likely to involve the physical interaction between p300 and NAP. NAP proteins can form oligomers, and the results show that NAP proteins can bind to both core histones and p300 coactivator proteins, perhaps in a multicomponent ternary complex. We also provide data in support of the idea that histones can influence the interaction between p300 and NAP protein. These results argue that NAP is a functionally important component of the p300 coactivator complex and suggest that NAP may serve as a point of integration between transcriptional coactivators and chromatin.

摘要

p300/CREB结合蛋白（CBP）家族由辅助激活因子组成，这些辅助激活因子会影响多种转录因子的活性。尽管尚不清楚p300/CBP蛋白实现转录控制的机制，但人们认为染色质的调控是这一过程的一个重要方面。在此，我们描述了一种新的由p300介导的控制水平，该控制通过p300/CBP与核小体组装蛋白（NAP）家族成员之间的功能相互作用来介导，NAP家族包括NAP1、NAP2和TAF1。我们发现，此前被认为参与转录因子与染色质结合调控的NAP蛋白，通过一个可能涉及p300与NAP物理相互作用的过程，增强了包括p53和E2F在内的不同p300靶点的活性。NAP蛋白可以形成寡聚体，结果表明NAP蛋白可以与核心组蛋白和p300辅助激活蛋白结合，可能形成一种多组分三元复合物。我们还提供了数据支持组蛋白可影响p300与NAP蛋白之间相互作用这一观点。这些结果表明，NAP是p300辅助激活复合物中一个功能上重要的组成部分，并提示NAP可能作为转录辅助激活因子与染色质之间的一个整合点。

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