出 处:《Acta Pharmacologica Sinica》2007年第10期1566-1572,共7页中国药理学报(英文版)
基 金:This study was supported by grants from the National Heart,Lung,and Blood Institute(№ HL-70669 and № HL03674)
摘 要:Aim: We tested the hypothesis that bradykinin (BK)-induced relaxation of phenylephrine (PE) and endothelin-1 (ET-1) contractions can be differentially modu- lated by reactive oxygen species (ROS). Methods: Aortic rings isolated from Sprague-Dawley rats were used for the study. The contribution of ROS to PE (1× 10^-9-1× 10^5 mol/L)- and ET-1 (1× 10^-10 -1× 10^-8 mol/L)-induced contractions and the influence of ROS in BK (1× 10^-9 - 1× 10^-5 mol/L) relaxation of PE (1× 10^-7 mol/L) or ET-1 (1×10^-9 mol/L)-induced tension was evaluated in the aorta in the presence or absence of the following antioxidants: catalase (CAT, 300 U/mL), superoxide dismutase (SOD, 300 U/mL), and vitamin C (1× 10^-4 mol/L). Results: Tension generated by ET- 1 (1 × 10^-9 mol/L) or PE (1 × 10^-7 mol/L) was differentially relaxed by BK (1 × 10^-5 mol/L), producing a maximal relaxation of 75%±5% and 35±4%, respectively. The BK (1 × 10^-5 mol/L)-induced relaxation of PE (1 × 10^-7 mol/L) tension was significantly enhanced from 35%±4% (control) to 56%±9%, 60%±5%, and 49%±6% by SOD, CAT, and vitamin C, respectively (P〈0.05, n=8). However, the relaxation of ET-1 (1× 10^-9 mol/L) tension was significantly attenuated from 75%±5% (control) to 37%±9%, 63%±4%, and 39%±7% by SOD, CAT, and vitamin C, respectively (P〈0.05, n=8). On the other hand, CAT had no effect on PE-induced tension, while SOD enhanced PE-induced tension (36%, P〈0.05, n=10) and vitamin C attenuated (66%, P〈0.05, n=8) the tension induced by PE. By contrast, SOD or vitamin C had no effect, but CAT attenuated (44%, P〈0.05, n=9) the tension induced by ET-1. Conclusion: We have demonstrated that O2^- and H2O2 differentially modulate BK relaxation in an agonist-specific manner. O2^- attenuates BK-induced relaxation of PE contraction, but contributes to the relaxation of ET- 1 contraction. O2^- seems to inhibit PE contraction, while H2O2 contributes Aim: We tested the hypothesis that bradykinin (BK)-induced relaxation of phenylephrine (PE) and endothelin-1 (ET-1) contractions can be differentially modu- lated by reactive oxygen species (ROS). Methods: Aortic rings isolated from Sprague-Dawley rats were used for the study. The contribution of ROS to PE (1× 10^-9-1× 10^5 mol/L)- and ET-1 (1× 10^-10 -1× 10^-8 mol/L)-induced contractions and the influence of ROS in BK (1× 10^-9 - 1× 10^-5 mol/L) relaxation of PE (1× 10^-7 mol/L) or ET-1 (1×10^-9 mol/L)-induced tension was evaluated in the aorta in the presence or absence of the following antioxidants: catalase (CAT, 300 U/mL), superoxide dismutase (SOD, 300 U/mL), and vitamin C (1× 10^-4 mol/L). Results: Tension generated by ET- 1 (1 × 10^-9 mol/L) or PE (1 × 10^-7 mol/L) was differentially relaxed by BK (1 × 10^-5 mol/L), producing a maximal relaxation of 75%±5% and 35±4%, respectively. The BK (1 × 10^-5 mol/L)-induced relaxation of PE (1 × 10^-7 mol/L) tension was significantly enhanced from 35%±4% (control) to 56%±9%, 60%±5%, and 49%±6% by SOD, CAT, and vitamin C, respectively (P〈0.05, n=8). However, the relaxation of ET-1 (1× 10^-9 mol/L) tension was significantly attenuated from 75%±5% (control) to 37%±9%, 63%±4%, and 39%±7% by SOD, CAT, and vitamin C, respectively (P〈0.05, n=8). On the other hand, CAT had no effect on PE-induced tension, while SOD enhanced PE-induced tension (36%, P〈0.05, n=10) and vitamin C attenuated (66%, P〈0.05, n=8) the tension induced by PE. By contrast, SOD or vitamin C had no effect, but CAT attenuated (44%, P〈0.05, n=9) the tension induced by ET-1. Conclusion: We have demonstrated that O2^- and H2O2 differentially modulate BK relaxation in an agonist-specific manner. O2^- attenuates BK-induced relaxation of PE contraction, but contributes to the relaxation of ET- 1 contraction. O2^- seems to inhibit PE contraction, while H2O2 contributes
关 键 词:BRADYKININ endothelin- 1 PHENYLEPHRINE reactive oxygen species superoxide HYDROGENPEROXIDE RELAXATION contraction ANTIOXIDANTS
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