Publications (2)22.09 Total impact
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Article: Endothelin 1 type a receptor antagonism prevents vascular dysfunction and hypertension induced by 11beta-hydroxysteroid dehydrogenase inhibition: role of nitric oxide.
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ABSTRACT: The enzyme 11beta-hydroxysteroid dehydrogenase (11beta-HSD) prevents inappropriate activation of the nonselective mineralocorticoid receptors by glucocorticoids. Renal activity of 11beta-HSD is decreased in patients with apparent mineralocorticoid excess (SAME), licorice-induced hypertension, and essential hypertension. Although expressed in vascular cells, the role of 11beta-HSD in the regulation of vascular tone remains to be determined. lycyrrhizic acid (GA; 50 mg/kg IP, twice daily for 7 days) caused a significant inhibition of 11beta-HSD activity and induced hypertension in Wistar-Kyoto rats (157 versus 127 mm Hg in controls; P<0.01). After 11beta-HSD inhibition, aortic endothelial nitric oxide (NO) synthase (eNOS) protein content, nitrate tissue levels, and acetylcholine-induced release of NO were blunted (all P<0.05 versus controls). In contrast, vascular prepro-endothelin (ET)-1 gene expression, ET-1 protein levels, and vascular reactivity to ET-1 were enhanced by GA treatment (P<0.05 versus controls). Chronic ET(A) receptor blockade with LU135252 (50 mg. kg(-1). d(-1)) normalized blood pressure, ET-1 tissue content, vascular reactivity to ET-1, vascular eNOS protein content, and nitrate tissue levels and improved NO-mediated endothelial function in GA-treated rats (P<0.05 to 0.01 versus untreated and verapamil-treated controls). In human endothelial cells, GA increased production of ET-1 in the presence of corticosterone, which indicates that activation of the vascular ET-1 system by 11beta-HSD inhibition can occur independently of changes in blood pressure but is dependent on the presence of glucocorticoids. Chronic ET(A) receptor blockade normalizes blood pressure, prevents upregulation of vascular ET-1, and improves endothelial dysfunction in 11beta-HSD inhibitor-induced hypertension and may emerge as a novel therapeutic approach in cardiovascular disease associated with reduced 11beta-HSD activity.Circulation 06/2001; 103(25):3129-35. · 14.74 Impact Factor -
Article: Lack of nuclear apoptosis in cardiomyocytes and increased endothelin-1 levels in a rat heart model of myocardial stunning.
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ABSTRACT: Reperfusion injury may affect the cardiac NO and endothelin production. We investigated whether 20 min of total ischemia followed by 40 min of reperfusion can induce apoptosis in a Langendorff model of retrogradely perfused rat hearts (37 degrees C; paced at 300/'), and we attempted to correlate these findings with measured tissue NO and ET-1 levels. An apoptosis detection system was utilized which catalytically incorporates fluorescein-12-dUTP at the 3'-OH DNA ends using the principle of the TUNEL assay, with direct visualization of the labeled DNA. ET-1 was measured by radioimmunoassay and NO3/NO2 by ion pairing HPLC on C18 reverse phase columns. None of the postischemic (n = 6) nor of the control perfused (90 min, n = 6) hearts showed signs of apoptosis, while those exposed to longer ischemia (40 min) and reperfusion (2 h) confirmed the presence of apoptotic cells. Myocardial ET-1 concentrations were 4.8 +/- 1.0 versus 8.3 +/- 2.5 pg/100 mg (control vs. ischemic hearts, respectively; mean +/- SD; p < 0.05). Myocardial NO contents showed no differences. These data suggest that the time window of apoptosis with detectable DNA fragmentation exceeds 20 min of global total ischemia and 40 min of reperfusion, a model frequently used for inducing myocardial stunning. While NO was not increased in postischemic hearts, increased ET-1 levels indirectly argue for a role of ET-1 as inducer of apoptosis, but only at a later stage of reperfusion.Archiv für Kreislaufforschung 09/2000; 95(4):308-15. · 7.35 Impact Factor
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2001
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University of Zurich
Zürich, ZH, Switzerland
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