Institution: | a Science Department, Cabrini College, Radnor, PA, USA b School of Medicine, University of Colorado, Denver, CO, USA c College of Medicine, Cardiovascular Research Institute, The Texas A&M University System Health Science Center, Scott and White, and The Central Texas Veterans Health Care System, Temple, TX, USA d Baker Medical Research Institute, Melbourne, Australia e Mathematics Department, Cabrini College, Radnor, PA, USA |
Abstract: | β-Arrestins play a role in AT1 endocytosis by binding the cytoplasmic, C-terminus region T332–S338, the major site of angiotensin II (Ang II)-induced phosphorylation. However, the processes responsible for recruiting β-arrestin to the activated receptor are poorly defined. In this study, we used CHO-K1 and HEK 293 cells expressing wild-type or mutant AT1 to investigate two possibilities: activated AT1 induces global relocation of β-arrestins to the plasma membrane or the phosphorylated C-terminus acts as bait to attract β-arrestins. Results obtained using high osmolarity and dominant-negative β-arrestin confirmed that internalization of AT1 in both CHO-K1 and HEK 293 cells is predominately via clathrin-mediated endocytosis involving β-arrestin, and substitution of T332, S335, T336 and S338 with alanine to preclude phosphorylation markedly attenuated AT1 internalization. Confocal microscopy revealed that wild-type AT1 induced a time-dependent translocation of GFP-tagged β-arrestins 1 and 2 to the cell surface. In contrast, the TSTS/A mutant did not traffic β-arrestin 1 at all, and only trafficked β-arrestin 2 weakly. Results of rescue-type experiments were consistent with the idea that both β-arrestins are able to interact with the non-phosphorylated receptor, albeit with much lower affinity and β-arrestin 1 less so than β-arrestin 2. In conclusion, this study shows that the high affinity binding of β-arrestins to the phosphorylated C-terminus is the predominant mechanism of agonist-induced β-arrestin recruitment to the cell surface and AT1 receptor. |