NFAT调节域上的第二个钙调神经磷酸酶结合位点。

A second calcineurin binding site on the NFAT regulatory domain.

作者信息

Park S, Uesugi M, Verdine G L

机构信息

The Graduate Program in Biophysics and Department of Chemistry and Chemical Biology, Harvard University, Cambridge, MA 02138, USA.

出版信息

Proc Natl Acad Sci U S A. 2000 Jun 20;97(13):7130-5. doi: 10.1073/pnas.97.13.7130.

DOI:10.1073/pnas.97.13.7130

PMID:10860980

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC16511/

Abstract

NFATc (a member of the family of nuclear factors of activated T cells) is a transcriptional factor responsible for the Ca(2+)-inducible activation of cytokine genes during the immune response. In resting T cells, NFATc is retained in the cytoplasm by a mechanism that depends on multiple phosphorylations in an N-terminal regulatory domain. Physical interaction with and dephosphorylation by Ca(2+)-activated calcineurin (Cn) allows the protein to enter the nucleus, where it binds to specific sites in cytokine gene promoters. Previous studies had identified a peptide segment in NFATc that binds Cn stably. Here we report the identification of a second Cn-binding element in NFATc, which synergizes with the previously identified element. Although these sequences are conserved in all isoforms of NFAT, we find that the two sites contribute differentially to the overall affinity for Cn in an isoform-dependent manner. The regulatory domain of NFAT also was found to be entirely devoid of structure, both in the phosphorylated and unphosphorylated state. This finding suggests that the NFAT regulatory domain does not undergo phosphorylation-induced conformational switching, but instead requires partner proteins to control accessibility of the NFAT nuclear localization and nuclear export signals.

摘要

NFATc（活化T细胞核因子家族的一员）是一种转录因子，负责免疫反应期间细胞因子基因的钙（Ca²⁺）诱导激活。在静息T细胞中，NFATc通过一种依赖于N端调节域中多次磷酸化的机制保留在细胞质中。与钙（Ca²⁺）激活的钙调神经磷酸酶（Cn）的物理相互作用和去磷酸化使该蛋白能够进入细胞核，在那里它与细胞因子基因启动子中的特定位点结合。先前的研究已经在NFATc中鉴定出一个与Cn稳定结合的肽段。在此我们报告在NFATc中鉴定出第二个Cn结合元件，它与先前鉴定的元件协同作用。尽管这些序列在NFAT的所有同工型中都是保守的，但我们发现这两个位点以同工型依赖的方式对与Cn的总体亲和力有不同的贡献。还发现NFAT的调节域在磷酸化和未磷酸化状态下都完全没有结构。这一发现表明，NFAT调节域不会经历磷酸化诱导的构象转换，而是需要伴侣蛋白来控制NFAT核定位和核输出信号的可及性。

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