Bradykinin-Induced Vasodilation of Human Forearm Resistance Vessels Is Primarily Mediated by Endothelium-Dependent Hyperpolarization

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Hypertension. 2000;35:1314-1318

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(Hypertension. 2000;35:1314.)
© 2000 American Heart Association, Inc.

Scientific Contributions

Bradykinin-Induced Vasodilation of Human Forearm Resistance Vessels Is Primarily Mediated by Endothelium-Dependent Hyperpolarization

Marina L. H. Honing; Paul Smits; Paul J. Morrison; Ton J. Rabelink

From the Department of Vascular Medicine and Diabetes (M.L.H.H., T.J.R.) and the Clinical Pharmacology Unit (P.J.M., M.L.H.H.), University Hospital Utrecht, Utrecht, the Netherlands; and Department of Internal Medicine and Clinical Pharmacology (P.S.), University Hospital Nijmegen, Nijmegen, the Netherlands.

Correspondence to Prof Dr Ton J. Rabelink, Department of Vascular Medicine and Diabetes, University Hospital Utrecht, Room F03.226, Heidelberglaan 100, 3584 CX, Utrecht, the Netherlands. E-mail T.Rabelink{at}digd.azu.nl

Abstract—Bradykinin (BK) stimulates endothelial cellsto release a number of relaxing factors, such as NO, prostanoids(PGs), and an endothelium-derived hyperpolarizing factor (EDHF). However, the contributions of NO, PG, and EDHF in the vascular relaxation to BK vary with species and anatomic origin of bloodvessels used. Therefore, the present study was designed toinvestigate the contributions of NO, PG, and EDHF in vasodilationcaused by BK in human forearm resistance vessels. Forearm bloodflow (FBF) was recorded with venous occlusion plethysmographyin healthy nonsmoking subjects. At first, studies were performedto validate the NO clamp technique for its ability to inhibitendogenous NO generation. Brachial artery infusion of serotonin(0.6, 1.8, and 6 ng · 100 mL forearm volume [FAV]^-1· min^-1) caused significant forearm vasodilation (2.6to 4.6 mL · 100 mL FAV^-1 · min^-1), which isknown to be NO mediated. Indeed, during the NO clamp, cumulativedoses of serotonin caused no vasodilation (2.4 to 2.6 mL ·100 mL FAV^-1 · min^-1), indicating that the generationof endogenous NO was completely blocked. Thereafter, the vasodilativeactions of BK were investigated. Brachial artery infusion ofBK (50, 100, and 200 ng · 100 mL FAV^-1 · min^-1)caused significant forearm vasodilation in all studies (from3.1 to 20.4 mL · 100 mL FAV^-1 · min^-1). Afterthe inhibition of cyclooxygenase and NO synthase activity throughthe use of aspirin and the NO-clamp technique, BK increasedFBF in a similar manner (3.9 to 18.9 mL · 100 mL FAV^-1 · min^-1), indicating that the vasodilative actions ofBK are independent of NO and PG generation. However, vasodilationcaused by the 2 lower doses of BK were significantly attenuatedafter K_Ca channel activity was blocked with tetraethylammoniumchloride (0.1 mg · 100 mL FAV^-1 · min^-1), suggesting that in the lower dose range, BK mediates vasodilation throughthe opening of vascular potassium channels. In conclusion,BK is a potent vasodilator peptide in human forearm resistancevessels, causing vasodilation through hyperpolarization ofthe vascular wall independent of NO and PG production. In addition, the NO-clamp technique is a valid instrument to investigatethe contribution of NO in the vasodilative response to different agents.

Key Words: bradykinin • hyperpolarization • tetraethylammonium chloride • nitric oxide • prostaglandins

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