Evidence for functionally active protease‐activated receptor‐4 (PAR‐4) in human vascular smooth muscle cells

Abstract

This study investigates, whether in addition to the protease‐activated receptor‐1 (PAR‐1), PAR‐4 is present in vascular smooth muscle cells (SMC) of the human saphenous vein and whether this receptor is functionally active. PAR‐1 and PAR‐4 are stimulated by thrombin and by the synthetic peptides SFLLRN and GYPGQV, respectively. mRNAs for both, PAR‐1 and PAR‐4, were detected in the SMC by using reverse transcriptase polymerase chain reaction (RT – PCR). Treatment of the SMC with GYPGQV (200 μM) resulted in a transient increase in free intracellular calcium. This calcium signal was completely abolished after a preceding challenge with thrombin (10 nM), indicating homologous receptor desensitization. Stimulation of the SMC with 10 nM thrombin or 200 μM SFLLRN caused a time‐dependent activation of the extracellular signal‐regulated kinases‐1/2 (ERK‐1/2) with a maximum at 5 min. In contrast, 100 nM thrombin as well as 200 μM of GYPGQV induced a prolonged phosphorylation of ERK‐1/2 with a maximum at 60 min. These data suggest that PAR‐1 and PAR‐4 are activated by thrombin at distinct concentrations and with distinct kinetics. GYPGQV stimulated [³H]‐thymidine incorporation in SMC. At 500 μM, the peptide increased DNA synthesis 2.5 fold above controls. A comparable mitogenic effect was obtained after stimulation of the SMC by 10 nM thrombin or 100 μM SFLLRN, respectively. These data indicate that a functionally active PAR‐4 is present in SMC and, in addition to PAR‐1, might contribute to thrombin‐induced mitogenesis. British Journal of Pharmacology (2001) 132, 1441–1446; doi:10.1038/sj.bjp.0703947