Kilts J D, Gerhardt M A, Richardson M D, Sreeram G, Mackensen G B, Grocott H P, White W D, Davis R D, Newman M F, Reves J G, Schwinn D A, Kwatra M M
Department of Anesthesiology, Duke University Medical Center, Durham, NC 27710, USA.
Circ Res. 2000 Oct 13;87(8):705-9. doi: 10.1161/01.res.87.8.705.
Cardiac G protein-coupled receptors that couple to Galpha(s) and stimulate cAMP formation (eg, beta-adrenergic, histamine, serotonin, and glucagon receptors) play a key role in cardiac inotropy. Recent studies in rodent cardiac myocytes and transfected cells have revealed that one of these receptors, the beta(2)-adrenergic receptor (AR), also couples to the inhibitory G protein Galpha(i) (activation of which inhibits cAMP formation). If beta(2)ARs could be shown to couple to Galpha(i) in the human heart, it would have important ramifications, because levels of Galpha(i) increase with age and in failing human heart. Therefore, we investigated whether beta(2)ARs in the human heart activate Galpha(i). By photoaffinity labeling human atrial membranes with [(32)P]azidoanilido-GTP, followed by immunoprecipitation with antibodies specific for Galpha(i), we found that Galpha(i) is activated by stimulation of beta(2)ARs but not of beta(1)ARs. In addition, we found that other Galpha(s)-coupled receptors also couple to Galpha(i), including histamine, serotonin, and glucagon. When coupling of these receptors to Galpha(i) is disrupted by pertussis toxin, their ability to stimulate adenylyl cyclase is enhanced. These data provide the first evidence that beta(2)AR and many other Galpha(s)-coupled receptors in human atrium also couple to Galpha(i) and that abolishing the coupling of these receptors to Galpha(i) increases the receptor-mediated adenylyl cyclase activity.
与Gα(s)偶联并刺激环磷酸腺苷(cAMP)形成的心脏G蛋白偶联受体(如β-肾上腺素能、组胺、5-羟色胺和胰高血糖素受体)在心脏收缩性中起关键作用。最近在啮齿动物心肌细胞和转染细胞中的研究表明,这些受体之一,即β(2)-肾上腺素能受体(β(2)AR),也与抑制性G蛋白Gα(i)偶联(Gα(i)的激活会抑制cAMP形成)。如果能证明β(2)ARs在人类心脏中与Gα(i)偶联,将会产生重要影响,因为Gα(i)的水平会随着年龄增长以及人类心脏衰竭而升高。因此,我们研究了人类心脏中的β(2)ARs是否激活Gα(i)。通过用[(32)P]叠氮苯胺基-GTP对人心房膜进行光亲和标记,然后用针对Gα(i)的特异性抗体进行免疫沉淀,我们发现Gα(i)可被β(2)ARs的刺激激活,但不能被β(1)ARs的刺激激活。此外,我们发现其他与Gα(s)偶联的受体也与Gα(i)偶联,包括组胺、5-羟色胺和胰高血糖素。当这些受体与Gα(i)的偶联被百日咳毒素破坏时,它们刺激腺苷酸环化酶的能力会增强。这些数据首次证明,人类心房中的β(2)AR和许多其他与Gα(s)偶联的受体也与Gα(i)偶联,并且消除这些受体与Gα(i)的偶联会增加受体介导的腺苷酸环化酶活性。
