First Author | Damiano BP | Year | 1999 |
Journal | J Pharmacol Exp Ther | Volume | 288 |
Issue | 2 | Pages | 671-8 |
PubMed ID | 9918574 | Mgi Jnum | J:96312 |
Mgi Id | MGI:3530059 | Citation | Damiano BP, et al. (1999) Cardiovascular responses mediated by protease-activated receptor-2 (PAR-2) and thrombin receptor (PAR-1) are distinguished in mice deficient in PAR-2 or PAR-1. J Pharmacol Exp Ther 288(2):671-8 |
abstractText | We developed mice deficient in protease-activated receptor-2 (PAR-2) or PAR-1 to explore the pathophysiological functions of these receptors. In this report, we evaluated mean arterial pressure and heart rate (HR) changes in response to PAR-1 or PAR-2 activation in anesthetized wild-type (WT), PAR-1-deficient (PAR-1(-/-)), and PAR-2-deficient (PAR-2(-/-)) mice. In WT mice, TFLLRNPNDK, a PAR-1 selective activating peptide, caused hypotension and HR decreases at 1 micromol/kg. TFLLRNPNDK also caused secondary hypertension following L-NAME pretreatment. These responses were absent in PAR-1(-/-) mice. In WT mice, SLIGRL, a PAR-2 selective activating peptide, caused hypotension without changing HR at 0.3 micromol/kg. SLIGRL did not induce hypertension following Nomega-nitrol-arginine-methyl ester-HCl (L-NAME). The response to SLIGRL was absent in PAR-2(-/-) mice. SFLLRN, a nonselective receptor activating peptide caused hypotension and HR decreases in WT mice at 0.3 micromol/kg, as well as secondary hypertension following L-NAME. SFLLRN still induced hypotension in PAR-1(-/-) mice, but HR decrease and secondary hypertension following L-NAME were absent. The hypotensive and bradycardic responses to SFLLRN and TFLLRNPNDK in PAR-2(-/-) mice were accentuated compared with WT mice. By using mouse strains deficient in either PAR-1 or PAR-2, we confirmed the in vivo specificity of TFLLRNPNDK and SLIGRL as respective activating peptides for PAR-1 and PAR-2, and the distinct hemodynamic responses mediated by activation of PAR-1 or PAR-2. Moreover, the accentuated response to PAR-1 activation in PAR-2-deficient mice suggests a compensatory response and potential receptor cross-talk. |