Evidence for involvement of 3'-untranslated region in determining angiotensin II receptor coupling specificity to G-protein.

The mRNA 3'-untranslated region (3'-UTR) of many genes has been identified as an important regulator of the mRNA transcript itself as well as the translated product. Previously, we demonstrated that Chinese-hamster ovary-K1 cells stably expressing angiotensin receptor subtypes (AT(1A)) with and without 3'-UTR differed in AT(1A) mRNA content and its coupling with intracellular signalling pathways. Moreover, RNA mobility-shift assay and UV cross-linking studies using the AT(1A) 3'-UTR probe identified a major mRNA-binding protein complex of 55 kDa in Chinese-hamster ovary-K1 cells. In the present study, we have determined the functional significance of the native AT(1A) receptor 3'-UTR in rat liver epithelial (WB) cell lines by co-expressing the AT(1A) 3'-UTR sequence 'decoy' to compete with the native receptor 3'-UTR for its mRNA-binding proteins. PCR analysis using specific primers for the AT(1A) receptor and [(125)I]angiotensin II (AngII)-binding studies demonstrated the expression of the native AT(1A) receptors in WB (B(max)=2.7 pmol/mg of protein, K(d)=0.56 nM). Northern-blot analysis showed a significant increase in native receptor mRNA expression in 3'-UTR decoy-expressing cells, confirming the role of 3'-UTR in mRNA destabilization. Compared with vehicle control, AngII induced DNA and protein synthesis in wild-type WB as measured by [(3)H]thymidine and [(3)H]leucine incorporation respectively. Activation of [(3)H]thymidine and [(3)H]leucine correlated with a significant increase in cell number (cellular hyperplasia). In these cells, AngII stimulated GTPase activity by AT(1) receptor coupling with G-protein alpha i. We also delineated that functional coupling of AT(1A) receptor with G-protein alpha i is an essential mechanism for AngII-mediated cellular hyperplasia in WB by specifically blocking G-protein alpha i activation. In contrast with wild-type cells, stable expression of the 3'-UTR 'decoy' produced AngII-stimulated protein synthesis and cellular hypertrophy as demonstrated by a significant increase in [(3)H]leucine incorporation and no increase in [(3)H]thymidine incorporation and cell number. Furthermore, [(125)I]AngII cross-linking and immunoprecipitation studies using specific G-protein alpha antibodies showed that in wild-type cells, the AT(1A) receptor coupled with G-protein alpha i, whereas in cells expressing the 3'-UTR 'decoy', the AT(1A) receptor coupled with G-protein alpha q. These findings indicate that the 3'-UTR-mediated changes in receptor function may be mediated in part by a switch from G-protein alpha i to G-protein alpha q coupling of the receptor. Our results suggest that the 3'-UTR-mediated post-transcriptional modification of the AT(1A) receptor is critical for regulating tissue-specific receptor functions.