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G 蛋白β 5/R7-调节 G 蛋白信号蛋白复合物的核定位依赖于 R7 结合蛋白。

Nuclear localization of the G protein beta 5/R7-regulator of G protein signaling protein complex is dependent on R7 binding protein.

机构信息

Metabolic Diseases Branch, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892-1752, USA.

出版信息

J Neurochem. 2010 Jun;113(5):1101-12. doi: 10.1111/j.1471-4159.2010.06616.x. Epub 2010 Jan 22.

DOI:10.1111/j.1471-4159.2010.06616.x
PMID:20100282
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2890294/
Abstract

The neuronally expressed G beta(5) subunit is the most structurally divergent among heterotrimeric G beta isoforms and unique in its ability to heterodimerize with the R7 subfamily of regulator of G protein signaling (RGS) proteins. The complex between G beta(5) and R7-type RGS proteins targets the cell nucleus by an unknown mechanism. Although the nuclear targeting of the G beta(5)/R7-RGS complex is proposed to involve the binding of R7-binding protein (R7BP), this theory is challenged by the observations that endogenous R7BP is palmitoylated, co-localizes strongly with the plasma membrane, and has never been identified in the cytosol or nucleus of native neurons or untreated cultured cells. We show here mutant RGS7 lacking the N-terminal Disheveled, EGL-10, Pleckstrin homology domain is expressed in transfected cells but, unlike wild-type RGS7, is excluded from the cell nucleus. As the Disheveled, EGL-10, Pleckstrin homology domain is essential for R7BP binding to RGS7, we studied the subcellular localization of G beta(5) in primary neurons and brain from mice deficient in R7BP. The level of endogenous nuclear G beta(5) and RGS7 in neurons and brains from R7BP knockout mice is reduced by 50-70%. These results suggest that R7BP contributes significantly to the nuclear localization of endogenous G beta(5)/R7-RGS complex in brain.

摘要

神经元表达的 G 蛋白β亚基(G beta(5))是异三聚体 G 蛋白β亚基中结构差异最大的亚基,其独特之处在于能够与 G 蛋白信号调节因子(RGS)蛋白的 R7 亚家族形成异二聚体。G beta(5)与 R7 型 RGS 蛋白形成的复合物通过未知机制靶向细胞核。虽然 G beta(5)/R7-RGS 复合物的核靶向作用被认为涉及 R7 结合蛋白(R7BP)的结合,但这一理论受到以下观察结果的挑战:内源性 R7BP 被棕榈酰化,强烈与质膜共定位,并且从未在天然神经元或未经处理的培养细胞的细胞质或核中被鉴定。我们在这里展示了缺乏 N 端 Disheveled、EGL-10、Pleckstrin 同源结构域的突变型 RGS7 在转染细胞中表达,但与野生型 RGS7 不同,它被排除在细胞核之外。由于 Disheveled、EGL-10、Pleckstrin 同源结构域对于 R7BP 与 RGS7 的结合至关重要,我们研究了 R7BP 缺失小鼠原代神经元和大脑中的 G beta(5)的亚细胞定位。神经元和 R7BP 敲除小鼠大脑中内源性核 G beta(5)和 RGS7 的水平降低了 50-70%。这些结果表明,R7BP 对大脑中内源性 G beta(5)/R7-RGS 复合物的核定位有重要贡献。

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Retina-specific GTPase accelerator RGS11/G beta 5S/R9AP is a constitutive heterotrimer selectively targeted to mGluR6 in ON-bipolar neurons.视网膜特异性GTP酶激活蛋白RGS11/Gβ5S/R9AP是一种组成型异源三聚体,选择性定位于视锥双极神经元中的代谢型谷氨酸受体6(mGluR6)。
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The R7 RGS protein family: multi-subunit regulators of neuronal G protein signaling.R7 RGS蛋白家族:神经元G蛋白信号传导的多亚基调节因子
Cell Biochem Biophys. 2009;54(1-3):33-46. doi: 10.1007/s12013-009-9052-9. Epub 2009 Jun 12.
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Changes in striatal signaling induce remodeling of RGS complexes containing Gbeta5 and R7BP subunits.纹状体信号的变化会诱导包含Gbeta5和R7BP亚基的RGS复合物发生重塑。
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R9AP and R7BP: traffic cops for the RGS7 family in phototransduction and neuronal GPCR signaling.R9AP和R7BP:光转导和神经元G蛋白偶联受体信号传导中RGS7家族的交通警察。
Trends Pharmacol Sci. 2009 Jan;30(1):17-24. doi: 10.1016/j.tips.2008.10.002. Epub 2008 Nov 29.
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RGS13 acts as a nuclear repressor of CREB.RGS13作为CREB的核内抑制因子发挥作用。
Mol Cell. 2008 Sep 5;31(5):660-70. doi: 10.1016/j.molcel.2008.06.024.
7
Postnatal induction and localization of R7BP, a membrane-anchoring protein for regulator of G protein signaling 7 family-Gbeta5 complexes in brain.出生后R7BP的诱导及定位,R7BP是脑中G蛋白信号调节因子7家族-Gβ5复合物的膜锚定蛋白。
Neuroscience. 2008 Feb 19;151(4):969-82. doi: 10.1016/j.neuroscience.2007.11.045. Epub 2007 Dec 8.
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Crystal structure of the multifunctional Gbeta5-RGS9 complex.多功能Gbeta5-RGS9复合物的晶体结构
Nat Struct Mol Biol. 2008 Feb;15(2):155-62. doi: 10.1038/nsmb.1377. Epub 2008 Jan 20.
9
Expression and localization of RGS9-2/G 5/R7BP complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases.RGS9-2/G 5/R7BP复合物在体内的表达和定位是由细胞半胱氨酸蛋白酶对其组成型降解的动态控制所决定的。
J Neurosci. 2007 Dec 19;27(51):14117-27. doi: 10.1523/JNEUROSCI.3884-07.2007.
10
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BMC Biochem. 2007 Sep 19;8:18. doi: 10.1186/1471-2091-8-18.