Endogenous endothelin maintains coronary artery tone by endothelin type A receptor stimulation in patients undergoing coronary arteriography

Kyriakides, Zenon S.; Kremastinos, Dimitrios Th.; Bofilis, Elias; Tousoulis, Dimitrios; Antoniadis, Aias; Webb, David J.

doi:10.1136/heart.84.2.176

Cited by 43 publications

(39 citation statements)

References 32 publications

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“…23,24 In one study, BQ-123 was only administered for 15 minutes, which likely underestimated its full effect. 23 We noted that ET A receptor blockade dilated epicardial arteries to Ϸ40% of the extent observed with the nitrovasodilator SNP.…”

Section: Et-1-mediated Coronary Vasoconstrictor Tonementioning

confidence: 99%

“…16 -21 Endogenous ET-1 acting via the ET A receptor contributes toward the maintenance of coronary vasoconstrictor tone. [22][23][24] Although chronic ET A receptor blockade attenuated the progression of endothelial vasomotor dysfunction in animal models, 25,26 whether endogenous ET-1 contributes toward endothelial dysfunction in the human coronary circulation in vivo is unknown.We hypothesized that ET-1 activity may contribute to both the resting coronary vasomotor tone and the endothelial dysfunction observed in the coronary circulation of patients with atherosclerosis. Therefore, in this study, we investigated the effect of ET A receptor antagonism on coronary vasomotor function and on transcardiac ET-1 uptake in patients with and without coronary atherosclerosis.…”

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Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade

Halcox

Nour

Zalos

et al. 2001

Circulation Research

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Abstract-The endothelium-derived peptide endothelin-1 (ET-1) causes vasoconstriction predominantly via smooth muscle ET A receptor activation. We hypothesized that ET A receptor inhibition would improve human coronary vascular function. We studied unobstructed coronary arteries of 44 patients with atherosclerosis or its risk factors. Epicardial diameter (D) Key Words: endothelin Ⅲ coronary circulation Ⅲ endothelial function Ⅲ atherosclerosis E ndothelin (ET), a powerful vasoconstrictor peptide, exists in 3 isoforms, ET-1, ET-2, and ET-3. 1,2 ET-1, the predominant isopeptide released from endothelial cells, is likely to be physiologically the most important in regulating vascular function via its action on 2 distinct receptor subtypes, ET A and ET B . 3 The ET A receptor has a high affinity for ET-1, is selectively expressed on vascular smooth muscle cells, and is the predominant ET receptor in the heart, 4,5 whereas the ET B receptor has equal affinity for all 3 isoforms of ET and is present on both endothelial and vascular smooth muscle cells. 6 ET-1, via stimulation of ET A receptors on vascular smooth muscle cells, activates phospholipase C, resulting in generation of inositol triphosphate, intracellular calcium accumulation, and vasoconstriction. 4,7,8 ET-1 levels are elevated in conditions associated with vascular endothelial dysfunction such as hyperlipidemia, hypertension, smoking, heart failure, and atherosclerosis, suggesting a possible pathophysiological role of ET-1 in these conditions. 9 -14 However, as ET-1 is preferentially secreted abluminally by the endothelial cells, circulating levels appear not to accurately reflect the vascular activity of ET-1, thus necessitating the use of selective antagonists to characterize its physiological effects. 15 ET A receptor antagonism vasodilates the forearm microcirculation of healthy volunteers and subjects with hypertension, heart failure, and hyperlipidemia, suggesting that endogenous ET-1 regulates resting peripheral vascular tone in humans. 16 -21 Endogenous ET-1 acting via the ET A receptor contributes toward the maintenance of coronary vasoconstrictor tone. [22][23][24] Although chronic ET A receptor blockade attenuated the progression of endothelial vasomotor dysfunction in animal models, 25,26 whether endogenous ET-1 contributes toward endothelial dysfunction in the human coronary circulation in vivo is unknown.We hypothesized that ET-1 activity may contribute to both the resting coronary vasomotor tone and the endothelial dysfunction observed in the coronary circulation of patients with atherosclerosis. Therefore, in this study, we investigated the effect of ET A receptor antagonism on coronary vasomotor function and on transcardiac ET-1 uptake in patients with and without coronary atherosclerosis.

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Section: Et-1-mediated Coronary Vasoconstrictor Tonementioning

confidence: 99%

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Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade

Halcox

Nour

Zalos

et al. 2001

Circulation Research

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“…Most of these blood biomarkers have been correlated with measures of vascular function in humans. [11][12][13][14][15] These circulating biomarkers represent diverse protective and vasoaggressive mechanisms. The natriuretic peptides MR-proANP and Nt-proBNP, as well as MR-proADM, effectively control blood pressure and plasma volume and have been shown to be indicators of cardiovascular risk and mortality in initially healthy individuals.…”

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Multiple Endothelial Biomarkers and Noninvasive Vascular Function in the General Population

et al. 2012

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Abstract-Vascular reactivity is reflected by blood biomarkers and noninvasive vascular function measurement. The relation of biomarkers to flow-mediated dilation and peripheral arterial tonometry in the general population is little understood. In 5000 individuals (mean age, 56Ϯ11 years; age range, 35-74 years; 49% women) of the population-based Gutenberg Health Study we simultaneously assessed 6 biomarkers of cardiovascular function (midregional proadrenomedullin [MR-proADM], midregional pro atrial natriuretic peptide [MR-proANP], N-terminal pro B-type natriuretic peptide, copeptin, C-terminal proendothelin 1, and neopterin) in relation to flow-mediated dilation and peripheral arterial tonometry. Strongest partial correlations (adjusted for age and sex) were observed for baseline pulse amplitude with MR-proADM (rϭ0.13) and MR-proANP (rϭϪ0.13); hyperemic response variables showed the highest correlation for MR-proADM and peripheral arterial tonometry ratio (rϭϪ0.14). In multivariable linear regression models, strongest associations with baseline vascular function were observed for MR-proANP with baseline pulse amplitude 1 Early detection of vascular impairment before clinically manifest disease has been the goal of preventive efforts.2,3 Methods applied for screening of vascular dysfunction at the population level need to be noninvasive or minimally invasive. Most popular screening methods used recently are composed of the determination of flow-mediated dilation (FMD) of the brachial artery and peripheral arterial tonometry (PAT).4-6 FMD reflects conduit artery reactivity, 7 and PAT represents microvascular status. 8 Both measures are modestly correlated with coronary endothelial function, 9,10 and prospective data have remained controversial. 2,3Another approach to assess vascular status is the measurement of circulating biomarkers that may directly mirror vascular activation. Established and novel vasoactive peptides or their more stable precursors are composed of midregional proadrenomedullin (MR-proADM), midregional Received January 23, 2012; first decision February 8, 2012; revision accepted May 8, 2012. From the Department of General and Interventional Cardiology (R.B.S., C.R.S., S.W., T.Z., E.L., S.B.), University Heart Center, Hamburg-Eppendorf, Germany; Department of Medicine 2 (P.S.W., A.S., A.W., T.G., T.M.), Center of Thrombosis and Hemostasis (P.S.W.), and Institute of Clinical Chemistry and Laboratory Medicine (K.J.L.), University Medical Center Mainz, Johannes Gutenberg-University, Mainz, Germany; B · R · A · H · M · S GmbH (J.K.), Thermo Fisher Scientific, Hennigsdorf, Germany.S.B. and T.M. contributed equally to the article. The antidiuretic hypothalamic hormone vasopressin regulates osmotic homeostasis through water retention in the kidneys and acts directly on vascular smooth muscle cells.18 Endothelin 1 is a potent paracrine vasoconstrictor produced predominantly by endothelial cells. 19 The pteridine derivative neopterin is a marker of monocyte activation and mirrors elevated inflammatory sta...

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“…Endogenous ET-1 is enhanced in hypertension, coronary artery disease (CAD), and heart failure, [15][16][17][18][19][20][21] with ET A receptor activation contributing to coronary constrictor tone and peripheral and coronary endothelial dysfunction via ET A receptor activation. [22][23][24][25][26][27] Differing effects of ET B receptor activation are observed in health and disease and in different vascular beds. 10,16 -19,28 -30 Combined ET AϩB antagonism causes coronary vasodilation, 31 but the effects on endothelial function and the specific role of ET B in coronary vasomotion remain unknown.…”

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Endogenous Endothelin in Human Coronary Vascular Function

Halcox¹,

Nour²,

Zalos³

et al. 2007

Hypertension

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Abstract-Endothelin 6 -9 ; however, ET B receptors also mediate the release of NO and prostacyclin from endothelial cells and increase pulmonary clearance and endothelial reuptake of ET-1. 10 -14 Thus, ET B receptor stimulation has the potential to both vasodilate and vasoconstrict, and the balance between these opposing phenomena is critical in determining the physiological impact of ET B receptor activity. Endogenous ET-1 is enhanced in hypertension, coronary artery disease (CAD), and heart failure, 15-21 with ET A receptor activation contributing to coronary constrictor tone and peripheral and coronary endothelial dysfunction via ET A receptor activation. [22][23][24][25][26][27] Differing effects of ET B receptor activation are observed in health and disease and in different vascular beds. 10,16 -19,28 -30 Combined ET AϩB antagonism causes coronary vasodilation, 31 but the effects on endothelial function and the specific role of ET B in coronary vasomotion remain unknown.We hypothesized a differential contribution from endogenous ET A and ET B receptor activation in human coronary vasomotor regulation. Herein we report the first clinical study investigating the effect of selective ET B and combined ET AϩB receptor antagonism on coronary vascular function in subjects with CAD and its risk factors. Methods PatientsWe studied 39 patients with either CAD (nϭ24) or normal coronary arteries and risk factors for CAD (nϭ15) undergoing diagnostic cardiac catheterization (details are available in a data supplement available online at http://hyper.ahajournals.org).

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Endogenous endothelin maintains coronary artery tone by endothelin type A receptor stimulation in patients undergoing coronary arteriography

Cited by 43 publications

References 32 publications

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade

Multiple Endothelial Biomarkers and Noninvasive Vascular Function in the General Population

Endogenous Endothelin in Human Coronary Vascular Function

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Endogenous endothelin maintains coronary artery tone by endothelin type A receptor stimulation in patients undergoing coronary arteriography

Cited by 43 publications

References 32 publications

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET A Receptor Blockade

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET A Receptor Blockade

Multiple Endothelial Biomarkers and Noninvasive Vascular Function in the General Population

Endogenous Endothelin in Human Coronary Vascular Function

Contact Info

Product

Resources

About

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade

Coronary Vasodilation and Improvement in Endothelial Dysfunction With Endothelin ET _A Receptor Blockade