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题目:: Regulation of RGS5 GAP activity by GPSM3.
作者:: Zhao(Peishen),Chidiac(Peter)
状态:: 发布时间2015-05-28 , 更新时间 2015-05-28
期刊:: Mol Cell Biochem
摘要:: Heterotrimeric G protein signaling is limited by intracellular proteins that impede the binding of or accelerate the hydrolysis of the activating nucleotide GTP, exemplified respectively by the G protein-signaling modifier (GPSM) and regulator of G protein-signaling (RGS) families of proteins. Little is known about how members of these groups of proteins might influence the impact of the other on G protein activity. In the present study, we have identified novel binding and functional interactions between GPSM3 (also known as activator of G protein-signaling 4 (AGS4) or G18) and RGS5, both of which were found to be expressed in primary rat aortic smooth muscle cell cultures. The binding of GPSM3 to RGS5 appears to be selective as no interactions were detected with other RGS proteins tested. In solution-based experiments, the addition of GPSM3 was found to enhance the ability of RGS5 to accelerate GTP hydrolysis by Gαi1 but not that of RGS4. In membrane-based assays utilizing M2 muscarinic receptor-activated Gαi1, GPSM3 decreased the rate of GTP hydrolysis in the presence of RGS4 but not RGS5, suggesting that the enhancement of RGS5 activity by GPSM3 is maintained under these conditions and/or that the binding of RGS5 to GPSM3 impedes its inhibitory effect on GTP turnover. Overall these findings show that it is possible for GPSM and RGS proteins to bind to one another to produce distinct regulatory effects on heterotrimeric G protein activity.
语言:: eng
DOI:: 10.1007/s11010-015-2393-3

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