OBJECTIVE: RGS proteins (regulators of G protein signalling) negatively regulate G protein function as GTPase activating proteins. By controlling heterotrimeric G proteins they may regulate myocardial hypertrophy and contractility. We investigated the expression of RGS proteins in the human heart and whether they take part in the pathophysiological changes of heart failure. METHODS AND RESULTS: Using RNase protection assays (RPAs) RGS2, 3L, 3S, 4, 5 and 6 were identified in the myocardium from terminally failing human hearts with dilated (DCM, n=22) or ischemic (ICM, n=18) cardiomyopathy and from nonfailing donor hearts (NF, n=9). With reverse transcriptase polymerase chain reaction in addition mRNA of RGS1, 9, 12, 14 and 16 were detectable. Compared to NF in failing LV myocardium RGS4 mRNA and protein was upregulated 2-3-fold (mRNA, 10(-21) mol/microg+/-S.E.M.: NF: 22+/-5, DCM: 51+/-10*, ICM: 37+/-8; P<0.05 vs. DCM+ICM, *P<0.05 vs. NF, P<0.05 vs. DCM+ICM; protein, % of NF+/-S.E.M.: NF: 100+/-35, DCM 266+/-60*, ICM: 205+/-64, n=5, *P<0.05 vs. NF). In contrast, RGS2, 3L, 3S, 5, 6, and 16 protein and mRNA levels did not vary between failing and NF hearts. In order to investigate the impact of RGS4 on Gq/11 mediated signalling, PLC activity was measured in human LV membranes. Recombinant RGS4 blunted the endothelin-1 (ET-1) stimulated PLC activity. When overexpressed by adenoviral mediated gene transfer in rabbit ventricular myocytes RGS4 abolished the inotropic effect of ET-1. CONCLUSION: The upregulation of RGS4 in failing human myocardium diminishes Gq/11-mediated signalling and can be involved in the desensitization of Gq/11-mediated positive inotropic effects.
OBJECTIVE:RGS proteins (regulators of G protein signalling) negatively regulate G protein function as GTPase activating proteins. By controlling heterotrimeric G proteins they may regulate myocardial hypertrophy and contractility. We investigated the expression of RGS proteins in the human heart and whether they take part in the pathophysiological changes of heart failure. METHODS AND RESULTS: Using RNase protection assays (RPAs) RGS2, 3L, 3S, 4, 5 and 6 were identified in the myocardium from terminally failing human hearts with dilated (DCM, n=22) or ischemic (ICM, n=18) cardiomyopathy and from nonfailing donor hearts (NF, n=9). With reverse transcriptase polymerase chain reaction in addition mRNA of RGS1, 9, 12, 14 and 16 were detectable. Compared to NF in failing LV myocardium RGS4 mRNA and protein was upregulated 2-3-fold (mRNA, 10(-21) mol/microg+/-S.E.M.: NF: 22+/-5, DCM: 51+/-10*, ICM: 37+/-8; P<0.05 vs. DCM+ICM, *P<0.05 vs. NF, P<0.05 vs. DCM+ICM; protein, % of NF+/-S.E.M.: NF: 100+/-35, DCM 266+/-60*, ICM: 205+/-64, n=5, *P<0.05 vs. NF). In contrast, RGS2, 3L, 3S, 5, 6, and 16 protein and mRNA levels did not vary between failing and NF hearts. In order to investigate the impact of RGS4 on Gq/11 mediated signalling, PLC activity was measured in human LV membranes. Recombinant RGS4 blunted the endothelin-1 (ET-1) stimulated PLC activity. When overexpressed by adenoviral mediated gene transfer in rabbit ventricular myocytes RGS4 abolished the inotropic effect of ET-1. CONCLUSION: The upregulation of RGS4 in failing human myocardium diminishes Gq/11-mediated signalling and can be involved in the desensitization of Gq/11-mediated positive inotropic effects.
Authors: Ji Hyang Kim; Jin Young Lee; Kyu Taek Lee; Jong Kyoon Lee; Kwang Hyuck Lee; Kee-Taek Jang; Jin Seok Heo; Seong Ho Choi; Jong Chul Rhee Journal: Tumour Biol Date: 2010-06-23
Authors: Khalid Chakir; Samantapudi K Daya; Takeshi Aiba; Richard S Tunin; Veronica L Dimaano; Theodore P Abraham; Kathryn M Jaques-Robinson; Kathryn Jacques; Edwin W Lai; Karel Pacak; Wei-Zhong Zhu; Rui-ping Xiao; Gordon F Tomaselli; David A Kass Journal: Circulation Date: 2009-02-23 Impact factor: 29.690
Authors: Irina M Jaba; Zhen W Zhuang; Na Li; Yifeng Jiang; Kathleen A Martin; Albert J Sinusas; Xenophon Papademetris; Michael Simons; William C Sessa; Lawrence H Young; Daniela Tirziu Journal: J Clin Invest Date: 2013-04 Impact factor: 14.808