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GEC1与κ阿片受体的结合涉及疏水相互作用:GEC1具有伴侣样效应。

GEC1-kappa opioid receptor binding involves hydrophobic interactions: GEC1 has chaperone-like effect.

作者信息

Chen Yong, Chen Chongguang, Kotsikorou Evangelia, Lynch Diane L, Reggio Patricia H, Liu-Chen Lee-Yuan

机构信息

Department of Pharmacology, Temple University School of Medicine, Philadelphia, Pennsylvania 19140, USA.

出版信息

J Biol Chem. 2009 Jan 16;284(3):1673-85. doi: 10.1074/jbc.M808303200. Epub 2008 Nov 11.

DOI:10.1074/jbc.M808303200
PMID:19001416
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2615498/
Abstract

We demonstrated previously that the protein GEC1 (glandular epithelial cell 1) bound to the human kappa opioid receptor (hKOPR) and promoted cell surface expression of the receptor by facilitating its trafficking along the secretory pathway. Here we showed that three hKOPR residues (Phe345, Pro346, and Met350) and seven GEC1 residues (Tyr49, Val51, Leu55, Thr56, Val57, Phe60, and Ile64) are indispensable for the interaction. Modeling studies revealed that the interaction was mediated via direct contacts between the kinked hydrophobic fragment in hKOPR C-tail and the curved hydrophobic surface in GEC1 around the S2 beta-strand. Intramolecular Leu44-Tyr109 interaction in GEC1 was important, likely by maintaining its structural integrity. Microtubule binding mediated by the GEC1 N-terminal domain was essential for the GEC1 effect. Expression of GEC1 also increased cell surface levels of the GluR1 subunit and the prostaglandin EP3.f receptor, which have FPXXM and FPXM sequences, respectively. With its widespread distribution in the nervous system and its predominantly hydrophobic interactions, GEC1 may have chaperone-like effects for many cell surface proteins along the biosynthesis pathway.

摘要

我们之前证明,蛋白质GEC1(腺上皮细胞1)与人κ阿片受体(hKOPR)结合,并通过促进其沿分泌途径的运输来促进该受体的细胞表面表达。在此我们表明,hKOPR的三个残基(Phe345、Pro346和Met350)以及GEC1的七个残基(Tyr49、Val51、Leu55、Thr56、Val57、Phe60和Ile64)对于这种相互作用是不可或缺的。建模研究表明,这种相互作用是通过hKOPR C末端的扭结疏水片段与GEC1中围绕S2β链的弯曲疏水表面之间的直接接触介导的。GEC1中分子内Leu44-Tyr109相互作用很重要,可能是通过维持其结构完整性。GEC1 N末端结构域介导的微管结合对于GEC1的作用至关重要。GEC1的表达还增加了分别具有FPXXM和FPXM序列的GluR1亚基和前列腺素EP3.f受体的细胞表面水平。由于GEC1在神经系统中广泛分布且主要通过疏水相互作用,它可能在生物合成途径中对许多细胞表面蛋白具有类似伴侣的作用。

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