Endothelin-1 regulates arterial pulse wave velocity in vivo.

OBJECTIVES The aim of this study was to investigate whether endothelin-1, acting locally, regulates arterial distensibility, assessed by measuring pulse-wave velocity in vivo. BACKGROUND Arterial stiffness is a key determinant of cardiovascular risk. Several lines of evidence support a role for the endothelium in regulating arterial stiffness by release of vasoactive mediators. However, the role of endothelin-1 (ET-1) in the regulation of arterial stiffness has not been investigated. METHODS All studies were conducted in anesthetized sheep. Pulse wave velocity (PWV) was calculated using the foot-to-foot methodology from two pressure waveforms simultaneously recorded with a high-fidelity, dual pressure-sensing catheter placed in the common iliac artery. RESULTS Intra-arterial infusion of ET-1 significantly increased iliac PWV by 12 +/- 5% (mean +/- STD; p < 0.001), whereas infusion of the endothelin-A (ET(A)) receptor antagonist BQ-123 significantly reduced PWV by 12 +/- 4% (p < 0.001). After BQ-123 infusion, exogenously infused ET-1 did not significantly change PWV compared with infusion of saline (change of -0.08 +/- 0.11% vs. -0.01 +/- 0.07%; p = 0.53). Importantly, infusion of BQ-123 or ET-1 distal to the common iliac artery did not affect PWV. CONCLUSIONS These results demonstrate, for the first time, that endogenous ET-1 production directly regulates large artery PWV in vivo. In addition, exogenous ET-1 increases PWV, and this can be blunted by ET(A) receptor blockade. These observations explain, in part, why conditions that exhibit up-regulation of ET-1 are also associated with arterial stiffening. Therefore, drugs that block ET(A) receptors may be effective in reducing large artery stiffness in humans, and thus cardiovascular risk.

[1]  D. Webb,et al.  Inhibition of nitric oxide synthesis increases blood pressure in healthy humans , 1993, Journal of hypertension.

[2]  A. Hill,et al.  The Velocity of the Pulse Wave in Man , 1922 .

[3]  J. Ritter,et al.  Forearm vasoconstriction in response to noradrenaline and NG-monomethyl-L-arginine in essential hypertension. , 1999, Clinical science.

[4]  G. D. Johnston,et al.  Vasoconstriction to endothelin-1 is blunted in non-insulin-dependent diabetes: a dose-response study. , 2000, Journal of cardiovascular pharmacology.

[5]  J. Blacher,et al.  Aortic pulse wave velocity as a marker of cardiovascular risk in hypertensive patients. , 1999, Hypertension.

[6]  J. Vane,et al.  Pressor effects of circulating endothelin are limited by its removal in the pulmonary circulation and by the release of prostacyclin and endothelium-derived relaxing factor. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[7]  J. Blacher,et al.  Arterial Calcifications, Arterial Stiffness, and Cardiovascular Risk in End-Stage Renal Disease , 2001, Hypertension.

[8]  B. Binder,et al.  Polar secretion of endothelin-1 by cultured endothelial cells. , 1992, The Journal of biological chemistry.

[9]  Mark A. Creager,et al.  Endothelium-Derived Nitric Oxide Regulates Arterial Elasticity in Human Arteries In Vivo , 2001, Hypertension.

[10]  D. Webb,et al.  Endogenous endothelin maintains coronary artery tone by endothelin type A receptor stimulation in patients undergoing coronary arteriography , 2000, Heart.

[11]  T. Gillessen,et al.  Do arterial endothelin 1 levels affect local arterial stiffness? , 1993, American heart journal.

[12]  S. Moncada,et al.  EFFECTS OF ENDOTHELIUM-DERIVED NITRIC OXIDE ON PERIPHERAL ARTERIOLAR TONE IN MAN , 1989, The Lancet.

[13]  A. Davenport,et al.  Is endothelin-induced vasoconstriction mediated only by ETA receptors in humans? , 1994, Trends in pharmacological sciences.

[14]  G. Mancia,et al.  Effects of cigarette smoking on carotid and radial artery distensibility , 1997, Journal of hypertension.

[15]  A. Quyyumi,et al.  Role of Endothelium‐Derived Nitric Oxide in the Abnormal Endothelium‐Dependent Vascular Relaxation of Patients With Essential Hypertension , 1993, Circulation.

[16]  D. Webb,et al.  Enhanced vasodilatation to endothelin antagonism in patients with compensated cirrhosis and the role of nitric oxide , 2003, Gut.

[17]  W. Waldhäusl,et al.  Effect of endothelin-1 in man. , 1990, Circulation.

[18]  G. Mancia,et al.  Impaired radial artery compliance in normotensive subjects with familial hypercholesterolemia. , 1996, Atherosclerosis.

[19]  P. Vallance,et al.  Dose- and time-dependency of the dilator effects of the endothelin antagonist, BQ-123, in the human forearm. , 2003, British journal of clinical pharmacology.

[20]  Sadao Kimura,et al.  A novel potent vasoconstrictor peptide produced by vascular endothelial cells , 1988, Nature.

[21]  D. Bergel Cardiovascular fluid dynamics , 1972 .

[22]  Carter Vb,et al.  The power of words. , 1951, Lancet.

[23]  G. Watts,et al.  Impaired endothelium-dependent vasodilation of forearm resistance vessels in hypercholesterolaemia , 1992, The Lancet.

[24]  D. Webb,et al.  Contribution of endogenous generation of endothelin-1 to basal vascular tone , 1994, The Lancet.

[25]  L. Ghiadoni,et al.  Vasoconstriction to endogenous endothelin-1 is increased in the peripheral circulation of patients with essential hypertension. , 1999, Circulation.

[26]  R. Cannon,et al.  Increased activity of endogenous endothelin in patients with hypercholesterolemia. , 2000, Journal of the American College of Cardiology.

[27]  A. Hill,et al.  VELOCITY OF TRANSMISSION OF THE PULSE-WAVE: AND ELASTICITY OF ARTERIES , 1922 .

[28]  David J. Webb,et al.  Nitric Oxide Regulates Local Arterial Distensibility In Vivo , 2002, Circulation.

[29]  A P Avolio,et al.  Effects of aging on changing arterial compliance and left ventricular load in a northern Chinese urban community. , 1983, Circulation.

[30]  P. Challande,et al.  In vivo/in vitro comparison of rat abdominal aorta wall viscosity. Influence of endothelial function. , 1997, Arteriosclerosis, thrombosis, and vascular biology.

[31]  A. Davenport,et al.  Effect of in vivo fetal infusion of dexamethasone at 0.75 GA on fetal ovine resistance artery responses to ET-1. , 2001, American journal of physiology. Regulatory, integrative and comparative physiology.

[32]  D. Webb,et al.  Increased central pulse pressure and augmentation index in subjects with hypercholesterolemia. , 2002, Journal of the American College of Cardiology.

[33]  C. Kamphuis,et al.  DIFFERENTIAL BLOCKADE OF THE RENAL VASOCONSTRICTOR AND DIURETIC RESPONSES TO ENDOTHELIN‐1 BY ENDOTHELIN ANTAGONIST , 1994, Clinical and experimental pharmacology & physiology.

[34]  D. Webb,et al.  Nitric Oxide Synthesis and by Endothelin-B Receptor Blockade Mediated Vasodilatation Is Attenuated by Inhibition of − Endothelin-A Receptor Antagonist , 1998 .

[35]  A Steptoe,et al.  Pulse wave velocity and blood pressure change: calibration and applications. , 1976, Psychophysiology.

[36]  D. Webb,et al.  Systemic ETA receptor antagonism with BQ‐123 blocks ET‐1 induced forearm vasoconstriction and decreases peripheral vascular resistance in healthy men , 2001, British journal of pharmacology.

[37]  A. Avolio,et al.  Quantification of alterations in structure and function of elastin in the arterial media. , 1998, Hypertension.

[38]  B. Prendergast,et al.  The physiological role of endogenous endothelin in the regulation of human coronary vasomotor tone. , 2001, Journal of the American College of Cardiology.

[39]  M. Safar,et al.  Endothelium-dependent mechanical properties of the carotid artery in WKY and SHR. Role of angiotensin converting enzyme inhibition. , 1990, Circulation research.