MST2 SARAH 结构域的结构提供了其与 RAPL 相互作用的见解。

Structure of MST2 SARAH domain provides insights into its interaction with RAPL.

机构信息

School of Life Sciences, Anhui University, Hefei, Anhui 230039, China.

State Key Laboratory of Cell Biology, Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 200031, China.

出版信息

J Struct Biol. 2014 Mar;185(3):366-74. doi: 10.1016/j.jsb.2014.01.008. Epub 2014 Jan 25.

DOI:10.1016/j.jsb.2014.01.008

PMID:24468289

Abstract

The STE20 kinases MST1 and MST2 are key players in mammalian Hippo pathway. The SARAH domains of MST1/2 act as a platform to mediate homodimerization and hetero-interaction with a range of adaptors including RASSFs and Salvador, which also possess SARAH domains. Here, we determined the crystal structure of human MST2 SARAH domain, which forms an antiparallel homodimeric coiled coil. Structural comparison indicates that SARAH domains of different proteins may utilize a shared dimerization module to form homodimer or heterodimer. Structure-guided mutational study identified specific interface residues critical for MST2 homodimerization. MST2 mutations disrupting its homodimerization also impaired its hetero-interaction with RAPL (also named RASSF5 and NORE1), which is mediated by their SARAH domains. Further biochemical and cellular assays indicated that SARAH domain-mediated homodimerization and hetero-interaction with RAPL are required for full activation of MST2 and therefore apoptotic functions in T cells.

摘要

STE20 激酶 MST1 和 MST2 是哺乳动物 Hippo 通路中的关键调节因子。MST1/2 的 SARAH 结构域作为一个平台，介导同源二聚体形成以及与一系列衔接蛋白（包括具有 SARAH 结构域的 RASSFs 和 Salvador）的异源相互作用。在此，我们解析了人源 MST2 SARAH 结构域的晶体结构，其形成了一个反平行的同源二聚体卷曲螺旋。结构比较表明，不同蛋白的 SARAH 结构域可能利用共享的二聚化模块形成同源二聚体或异源二聚体。基于结构的突变研究鉴定出对于 MST2 同源二聚化至关重要的特定界面残基。破坏 MST2 同源二聚化的突变也损害了其与 RAPL（也称为 RASSF5 和 NORE1）的异源相互作用，这种相互作用是通过它们的 SARAH 结构域介导的。进一步的生化和细胞实验表明，SARAH 结构域介导的同源二聚化和与 RAPL 的异源相互作用对于 MST2 的完全激活以及 T 细胞中的凋亡功能是必需的。

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MST2 SARAH 结构域的结构提供了其与 RAPL 相互作用的见解。

Structure of MST2 SARAH domain provides insights into its interaction with RAPL.

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