Thrombin and Phorbol Ester Induce Internalization of Thrombin Receptor of Human Mesangial Cells through Different Pathways

Abstract

Thrombin is a potent activator of human mesangial cells probably by activation of its functional receptor. Northern blot analysis demonstrates the presence of mRNA encoding the functional thrombin receptor in mesangial cells, and surface expression of thrombin receptor antigen has been confirmed by immunocytochemistry. Using 125I-labeled ATAP2, a monoclonal antibody against the functional thrombin receptor, we found that thrombin and thrombin receptor agonist peptide (TRAP) induce homologous internalization of thrombin receptor in a dose-dependent manner. Redistribution of thrombin receptor from the cell surface to vesicular structures in the cytoplasm has been followed by immunocytochemistry. Additionally, a dose-dependent loss of cell surface thrombin receptor is induced by phorbol 12-myristate 13-acetate (PMA), suggesting that thrombin receptor undergoes heterologous internalization in response to PMA. The time course of thrombin-induced receptor internalization is different from that observed with TRAP and PMA. Protein kinase C inhibitors, staurosporine and GF 109 203 X, do not affect thrombin receptor internalization induced by thrombin and TRAP but block receptor internalization stimulated by PMA. These data suggest that heterologous thrombin receptor internalization induced by PMA is mediated by protein kinase C. However, activation of protein kinase C is not responsible for homologous thrombin receptor internalization caused by thrombin and TRAP.