一种保守的 5 型 G 蛋白β亚基上的蛋白质相互作用界面控制 R7 家族 G 蛋白信号转导蛋白调节因子的蛋白水解稳定性和活性。
A conserved protein interaction interface on the type 5 G protein beta subunit controls proteolytic stability and activity of R7 family regulator of G protein signaling proteins.
机构信息
Department of Molecular Biophysics and Biochemistry, Yale University School of Medicine, New Haven, Connecticut 06520, USA.
出版信息
J Biol Chem. 2010 Dec 24;285(52):41100-12. doi: 10.1074/jbc.M110.163600. Epub 2010 Oct 19.
Abstract
Regulators of G protein signaling (RGS) proteins of the R7 subfamily limit signaling by neurotransmitters in the brain and by light in the retina. They form obligate complexes with the Gβ5 protein that are subject to proteolysis to control their abundance and alter signaling. The mechanisms that regulate this proteolysis, however, remain unclear. We used genetic screens to find mutations in Gβ5 that selectively destabilize one of the R7 RGS proteins in Caenorhabditis elegans. These mutations cluster at the binding interface between Gβ5 and the N terminus of R7 RGS proteins. Equivalent mutations within mammalian Gβ5 allowed the interface to still bind the N-terminal DEP domain of R7 RGS proteins, and mutant Gβ5-R7 RGS complexes initially formed in cells but were then rapidly degraded by proteolysis. Molecular dynamics simulations suggest the mutations weaken the Gβ5-DEP interface, thus promoting dynamic opening of the complex to expose determinants of proteolysis known to exist on the DEP domain. We propose that conformational rearrangements at the Gβ5-DEP interface are key to controlling the stability of R7 RGS protein complexes.
摘要
G 蛋白信号调节蛋白(RGS)家族的 R7 亚家族蛋白可调节大脑神经递质和视网膜光信号的转导。它们与 Gβ5 蛋白形成必需的复合物,通过蛋白水解来控制其丰度并改变信号转导。然而,调节这种蛋白水解的机制仍不清楚。我们利用遗传筛选找到了在秀丽隐杆线虫中选择性破坏一种 R7 RGS 蛋白的 Gβ5 突变。这些突变聚集在 Gβ5 与 R7 RGS 蛋白 N 端结合界面上。哺乳动物 Gβ5 中的等效突变允许界面仍然结合 R7 RGS 蛋白的 N 端 DEP 结构域,并且突变的 Gβ5-R7 RGS 复合物最初在细胞中形成,但随后迅速被蛋白水解降解。分子动力学模拟表明,这些突变削弱了 Gβ5-DEP 界面,从而促进了复合物的动态打开,暴露出已知存在于 DEP 结构域上的蛋白水解决定因素。我们提出,Gβ5-DEP 界面的构象重排是控制 R7 RGS 蛋白复合物稳定性的关键。
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