Iacovelli L, Franchetti R, Masini M, De Blasi A
Consorzio Mario Negri Sud, Istituto di Ricerche Farmacologiche Mario Negri, Santa Maria Imbaro, Italy.
Mol Endocrinol. 1996 Sep;10(9):1138-46. doi: 10.1210/mend.10.9.8885248.
Arrestins are regulatory proteins for a number of G-coupled receptors. The binding of arrestin to receptor phosphorylated by G protein-coupled receptor kinase (GRK) quenches the activation of the G protein, thus resulting in receptor homologous desensitization. We have previously shown that the levels of beta-arrestin1 are regulated by intracellular cAMP and proposed that this may represent one homeostatic mechanism with which to regulate some cellular responses. To test this hypothesis, we focused on the TSH receptor using a rat thyroid cell line, FRTL5. We found that beta-arrestin1 is the only detectable isoform of arrestin expressed in FRTL5 and that its expression is regulated by TSH. To investigate the possible role of GRK2/beta-arrestin1 machinery in the mechanism of TSH receptor homologous desensitization, we used a cotransfection approach. The TSH-induced cAMP accumulation in COS7 cells transfected with TSH receptor was reduced by 35-45% when cotransfected with GRK2 and/or beta-arrestin1, indicating that the TSH receptor can be regulated by a GRK/arrestin mechanism. This raised the hypothesis that TSH increases the levels of beta-arrestin1, which in turn could regulate the TSH stimulation. To test this point a FRTL5-derived cell line overexpressing beta-arrestin1 was generated. In these cells the TSH-stimulated cAMP accumulation and, more importantly, the mitogenic activity were substantially blunted. Our results show that TSH receptor-stimulated cAMP accumulation and cell proliferation can be controlled by a GRK2/beta-arrestin1 mechanism.
抑制蛋白是多种G蛋白偶联受体的调节蛋白。抑制蛋白与被G蛋白偶联受体激酶(GRK)磷酸化的受体结合,可抑制G蛋白的激活,从而导致受体同源脱敏。我们之前已经表明,β-抑制蛋白1的水平受细胞内cAMP调节,并提出这可能代表一种调节某些细胞反应的稳态机制。为了验证这一假设,我们使用大鼠甲状腺细胞系FRTL5,重点研究促甲状腺激素(TSH)受体。我们发现β-抑制蛋白1是FRTL5中唯一可检测到的抑制蛋白亚型,其表达受TSH调节。为了研究GRK2/β-抑制蛋白1机制在TSH受体同源脱敏机制中的可能作用,我们采用了共转染方法。当与GRK2和/或β-抑制蛋白1共转染时,转染了TSH受体的COS7细胞中TSH诱导的cAMP积累减少了35%-45%,这表明TSH受体可受GRK/抑制蛋白机制调节。这就提出了一个假设,即TSH会增加β-抑制蛋白1的水平,进而调节TSH刺激。为了验证这一点我们构建了一个过表达β-抑制蛋白1的FRTL5衍生细胞系。在这些细胞中,TSH刺激的cAMP积累,更重要的是,促有丝分裂活性显著减弱。我们的结果表明,GRK2/β-抑制蛋白1机制可控制TSH受体刺激的cAMP积累和细胞增殖。
