通过内部II类和C末端I类PDZ结合基序对NHE3蛋白进行PDZ结构域依赖性调节。

PDZ domain-dependent regulation of NHE3 protein by both internal Class II and C-terminal Class I PDZ-binding motifs.

作者信息

Cha Boyoung, Yang Jianbo, Singh Varsha, Zachos Nicholas C, Sarker Rafiquel I, Chen Tian-E, Chakraborty Molee, Tse Chung-Ming, Donowitz Mark

机构信息

Departments of Physiology and Medicine, Gastroenterology Division, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21205.

出版信息

J Biol Chem. 2017 May 19;292(20):8279-8290. doi: 10.1074/jbc.M116.774489. Epub 2017 Mar 10.

DOI:10.1074/jbc.M116.774489

PMID:28283572

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5437235/

Abstract

NHE3 directly binds Na/H exchanger regulatory factor (NHERF) family scaffolding proteins that are required for many aspects of NHE3 regulation. The NHERFs bind both to an internal region (amino acids 586-660) of the NHE3 C terminus and to the NHE3 C-terminal four amino acids. The internal NHERF-binding region contains both putative Class I (-SAV-) and Class II (-CLDM-) PDZ-binding motifs (PBMs). Point mutagenesis showed that only the Class II motif contributes to NHERF binding. In this study, the roles in regulation of NHE3 activity of these two PBMs were investigated, revealing the following findings. 1) Interaction occurred between these binding sites because mutation of either removed nearly all NHERF binding. 2) Mutations in either significantly reduced basal NHE3 activity. Total and percent plasma membrane (PM) NHE3 protein expression was reduced in the C-terminal but not in the internal PBD mutation. 3) cGMP- and Ca-mediated inhibition of NHE3 was impaired in both the internal and the C-terminal PBM mutations. 4) There was a significant reduction in half-life of the PM pool of NHE3 in only the internal PBM mutation but no change in total NHE3 half-life in either. 5) There were some differences in NHE3-associating proteins in the two PBM mutations. In conclusion, NHE3 binds to NHERF proteins via both an internal Class II PBM and C-terminal Class I PBM, which interact. The former determines NHE3 stability in the PM, and the latter determines total expression and percent PM expression.

摘要

NHE3直接结合钠/氢交换调节因子（NHERF）家族的支架蛋白，这些蛋白是NHE3调节多个方面所必需的。NHERF既与NHE3 C末端的内部区域（氨基酸586 - 660）结合，也与NHE3 C末端的四个氨基酸结合。内部NHERF结合区域同时包含假定的I类（-SAV-）和II类（-CLDM-）PDZ结合基序（PBM）。点突变表明只有II类基序对NHERF结合有贡献。在本研究中，对这两个PBM在NHE3活性调节中的作用进行了研究，得出以下发现。1）这些结合位点之间发生了相互作用，因为任何一个位点的突变几乎消除了所有NHERF结合。2）任何一个位点的突变都显著降低了NHE3的基础活性。C末端PBD突变中总质膜（PM）NHE3蛋白表达和百分比降低，但内部PBD突变中未降低。3）内部和C末端PBM突变均损害了cGMP和钙介导的NHE3抑制作用。4）仅内部PBM突变中NHE3的PM池半衰期显著降低，但两者的总NHE3半衰期均无变化。5）两个PBM突变中NHE3相关蛋白存在一些差异。总之，NHE3通过内部II类PBM和C末端I类PBM与NHERF蛋白结合，这两者相互作用。前者决定了NHE3在PM中的稳定性，后者决定了总表达和PM表达百分比。

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