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Sulfaphenazole Treatment Restores Endothelium-Dependent Vasodilation in Diabetic Mice Publisher Pubmed



Elmi S1 ; Sallam NA1 ; Rahman MM1 ; Teng X2 ; Hunter AL3 ; Moienafshari F1 ; Khazaei M4 ; Granville DJ3 ; Laher I1
Authors
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Authors Affiliations
  1. 1. Department of Anesthesiology, Pharmacology and Therapeutics, Faculty of Medicine, Vancouver, BC, Canada
  2. 2. Faculty of Pharmaceutical Sciences, University of British Columbia, Vancouver, BC, Canada
  3. 3. Department of Pathology, Laboratory Medicine, University of British Columbia, Vancouver, BC, Canada
  4. 4. Department of physiology, Faculty of medicine, Isfahan University of Medical sciences, Isfahan, Iran

Source: Vascular Pharmacology Published:2008


Abstract

Vascular dysfunction is linked with increased free radical generation and is a major contributor to the high mortality rates observed in diabetes. Several probable sources of free radical generation have been suggested in diabetes, including cytochrome P450 (CYP) monooxygenase-dependent pathways. CYP-mediated superoxide production reduces nitric oxide (NO) bioavailability. In this study, we focus on the contribution of monooxygenase enzyme-generated reactive oxygen species in vascular dysfunction in an experimental model of diabetes mellitus type II. Diabetic male mice (db/db strain) and their age-matched controls received daily intraperitoneal injections of either the CYP 2C inhibitor sulfaphenazole (5.13 mg/kg) or saline (vehicle control) for 8 weeks. Although sulfaphenazole did not change endothelium-dependent vasodilation in control mice, it restored endothelium-mediated relaxation in db/db mice. We report for the first time that CYP 2C inhibition reduces oxidative stress (measured as plasma levels of 8-isoprostane), increases NO bioavailability (measured as NO2-) and restores endothelial function in db/db mice without affecting plasma glucose levels. Based on our findings, we speculate that inhibition of free radical generating CYP 450 monooxygenase enzymes restores endothelium-dependent vasodilation to acetylcholine. In addition, it reduces oxidative stress and increases NO bioavailability. © 2007 Elsevier Inc. All rights reserved.
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