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Gβ 亚基结合及效应器相互作用的选择性差异:不同的 Gγ 亚基 Gγ(13)

G beta association and effector interaction selectivities of the divergent G gamma subunit G gamma(13).

作者信息

Blake B L, Wing M R, Zhou J Y, Lei Q, Hillmann J R, Behe C I, Morris R A, Harden T K, Bayliss D A, Miller R J, Siderovski D P

机构信息

Department of Pharmacology, University of North Carolina Neuroscience Center, Chapel Hill, North Carolina 27599-7365, USA.

出版信息

J Biol Chem. 2001 Dec 28;276(52):49267-74. doi: 10.1074/jbc.M106565200. Epub 2001 Oct 23.

DOI:10.1074/jbc.M106565200
PMID:11675383
Abstract

G gamma(13) is a divergent member of the G gamma subunit family considered to be a component of the gustducin G-protein heterotrimer involved in bitter and sweet taste reception in taste bud cells. G gamma(13) contains a C-terminal asparagine-proline-tryptophan (NPW) tripeptide, a hallmark of RGS protein G gamma-like (GGL) domains which dimerize exclusively with G beta(5) subunits. In this study, we investigated the functional range of G gamma(13) assembly with G beta subunits using multiple assays of G beta association and G beta gamma effector modulation. G gamma(13) was observed to associate with all five G beta subunits (G beta(1-5)) upon co-translation in vitro, as well as function with all five G beta subunits in the modulation of Kir3.1/3.4 (GIRK1/4) potassium and N-type (alpha(1B)) calcium channels. Multiple G beta/G gamma(13) pairings were also functional in cellular assays of phospholipase C (PLC) beta 2 activation and inhibition of G alpha(q)-stimulated PLC beta 1 activity. However, upon cellular co-expression of G gamma(13) with different G beta subunits, only G beta(1)/G gamma(13), G beta(3)/G gamma(13), and G beta(4)/G gamma(13) pairings were found to form stable dimers detectable by co-immunoprecipitation under high-detergent cell lysis conditions. Collectively, these data indicate that G gamma(13) forms functional G beta gamma dimers with a range of G beta subunits. Coupled with our detection of G gamma(13) mRNA in mouse and human brain and retina, these results imply that this divergent G gamma subunit can act in signal transduction pathways other than that dedicated to taste reception in sensory lingual tissue.

摘要

Gγ(13)是Gγ亚基家族的一个不同寻常的成员,被认为是味觉转导素G蛋白异源三聚体的一个组成部分,参与味蕾细胞中的苦味和甜味感受。Gγ(13)含有一个C末端天冬酰胺-脯氨酸-色氨酸(NPW)三肽,这是RGS蛋白Gγ样(GGL)结构域的一个标志,该结构域仅与Gβ(5)亚基二聚化。在本研究中,我们使用多种Gβ结合和Gβγ效应器调节测定法,研究了Gγ(13)与Gβ亚基组装的功能范围。在体外共翻译时,观察到Gγ(13)与所有五个Gβ亚基(Gβ(1-5))结合,并且在调节Kir3.1/3.4(GIRK1/4)钾通道和N型(α(1B))钙通道方面,与所有五个Gβ亚基都有功能作用。多种Gβ/Gγ(13)配对在磷脂酶C(PLC)β2激活和抑制Gα(q)刺激的PLCβ1活性的细胞测定中也有功能。然而,在细胞中共表达Gγ(13)与不同的Gβ亚基时,在高去污剂细胞裂解条件下,只有Gβ(1)/Gγ(13)、Gβ(3)/Gγ(13)和Gβ(4)/Gγ(13)配对能形成可通过共免疫沉淀检测到的稳定二聚体。总体而言,这些数据表明Gγ(13)与一系列Gβ亚基形成功能性Gβγ二聚体。结合我们在小鼠和人类大脑及视网膜中检测到Gγ(13) mRNA,这些结果意味着这个不同寻常的Gγ亚基可以在除了专门用于味觉感受的感觉舌组织之外的信号转导途径中发挥作用。

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