Jean-Vivien Mombouli scite author profile

The present study was designed to determine whether bradykinin induces endothelium-dependent hyperpolarization of vascular smooth muscle in human coronary arteries, and if so, to define the contribution of this hyperpolarization to endothelium-dependent relaxations. The membrane potential of arterial smooth muscle cells (measured by glass microelectrodes) and changes in isometric force were recorded in tissues from six patients undergoing heart transplantation. In the presence of indomethacin and NG-nitro-L-arginine (NLA), the membrane potential was -48.3±0.6 and -46.9±0.6 mV, in preparations with and without endothelium, respectively, and was not affected by treatment with perindoprilat, an angiotensin-converting enzyme inhibitor. In the presence of both indomethacin and NLA, bradykinin evoked transient and concentration-dependent hyperpolarizations only in tissues with endothelium, which were augmented by perindoprilat and mimicked by the calcium ionophore A23187. Glibenclamide did not inhibit membrane hyperpolarization to bradykinin. In rings contracted with prostaglandin F2,, the cumulative addition of bradykinin caused a concentration-dependent relaxation during contractions evoked by prostaglandin F2, which was not abolished by NLA and indomethacin. The present findings demonstrate the occurrence of endothelium-dependent hyperpolarization, and its contribution to endothelium-dependent relaxations, in the human coronary artery. (J. Clin. Invest. 1993. 92:2867-2871

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Potentiation of endothelium-dependent relaxations to bradykinin by angiotensin I converting enzyme inhibitors in canine coronary artery involves both endothelium-derived relaxing and hyperpolarizing factors.

Mombouli

Illiano

Nagao

et al. 1992

Circulation Research

200

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Studies were designed to investigate the mechanisms underlying the augmentation by angiotensin I converting enzyme (ACE) inhibitors of the endothelium-dependent relaxations evoked by bradykinin. Isometric tension, tissue levels of cGMP, and transmembrane potential were measured in isolated canine coronary arteries as indications of the respective contribution of nitric oxide and endothelium-derived hyperpolarizing factor. In rings of coronary artery with endothelium, relaxations to bradykinin were potentiated by the ACE inhibitors cilazaprilat and perindoprilat. NG-Nitro-L-arginine (NLA), a nitric oxide synthase inhibitor, impaired relaxations to bradykinin. But the presence of ACE inhibitors partially restored this activity. Bradykinin stimulated the production of cGMP, and this was enhanced significantly by ACE inhibitors, indicating an augmented release of nitric oxide. NLA abolished the increase induced by bradykinin irrespective of the presence of ACE inhibitors. Electrophysiological studies revealed that bradykinin elicited an endothelium-dependent hyperpolarization of vascular smooth muscle that was insensitive to NLA and potentiated by ACE inhibitors. The bradykinin-induced hyperpolarization and NLA-resistant relaxations were transient and impaired by potassium depolarization. Thus, production of endothelium-derived hyperpolarizing factor may account for the NLA-resistant relaxations of canine coronary arteries. The relaxations induced by bradykinin were unaffected by the B1 kinin receptor antagonist des-Arg9,[Leu8]-bradykinin either in the absence or in the presence of NLA but were antagonized by the B2 kinin receptor antagonist D-Arg[Hyp3,D-Phe7]-bradykinin. Molecular exclusion chromatography of 125I-labeled [Tyr8]-bradykinin and its degradation products demonstrated that the breakdown of the kinin by isolated coronary arteries was prevented in the presence of perindoprilat.(ABSTRACT TRUNCATED AT 250 WORDS)

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Vascular endothelium: Vasoactive mediators

Vanhoutte

Mombouli

1996

Progress in Cardiovascular Diseases

131

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