叉头框转录因子 FOXP3 的 DNA 结合域要求和序列特异性。

Domain requirements and sequence specificity of DNA binding for the forkhead transcription factor FOXP3.

机构信息

Department of Pathology, Harvard Medical School and Immune Disease Institute, Boston, Massachusetts, United States of America.

出版信息

PLoS One. 2009 Dec 1;4(12):e8109. doi: 10.1371/journal.pone.0008109.

DOI:10.1371/journal.pone.0008109

PMID:19956618

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2779587/

Abstract

The forkhead, winged-helix transcription factor FOXP3 is preferentially expressed in T regulatory (Treg) cells and is critical for their immunosuppressive function. Mutations that abolish FOXP3 function lead to systemic autoimmunity in mice and humans. However, the manner by which FOXP3 recognizes cognate DNA elements is unclear. Here we identify an in vitro optimized DNA sequence to assess FOXP3 DNA binding by electrophoretic mobility shift assay (EMSA). The optimized sequence contains two tandem copies of a core DNA element resembling, but not identical to, the canonical forkhead (FKH) binding element. The tandem nature of this optimized FOXP3-binding oligonucleotide suggests a requirement for multimerization, and EMSA experiments confirm that both the DNA-binding FKH domain and an intact leucine-zipper domain, which mediates homo-multimerization of FOXP3, are required for DNA binding. These results establish a practical framework for understanding the molecular basis by which FOXP3 regulates gene transcription and programs Treg suppressive function.

摘要

叉头框蛋白 P3（FOXP3）转录因子优先表达于调节性 T 细胞（Treg 细胞），并且对于其免疫抑制功能至关重要。FOXP3 功能丧失的突变会导致小鼠和人类的全身性自身免疫。然而，FOXP3 识别同源 DNA 元件的方式尚不清楚。在这里，我们鉴定了一种体外优化的 DNA 序列，通过电泳迁移率变动分析（EMSA）来评估 FOXP3 的 DNA 结合。该优化序列包含两个串联的核心 DNA 元件拷贝，类似于但不完全等同于典型的叉头（FKH）结合元件。该优化的 FOXP3 结合寡核苷酸的串联性质表明需要形成多聚体，并且 EMSA 实验证实，DNA 结合需要 DNA 结合的 FKH 结构域和完整的亮氨酸拉链结构域，该结构域介导 FOXP3 的同型多聚化。这些结果为理解 FOXP3 调节基因转录和编程 Treg 抑制功能的分子基础建立了一个实用的框架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17bc/2779587/03a694234444/pone.0008109.g001.jpg

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叉头框转录因子 FOXP3 的 DNA 结合域要求和序列特异性。

Domain requirements and sequence specificity of DNA binding for the forkhead transcription factor FOXP3.

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