1. Inhibition of NADPH oxidase activation in endothelial cells by ortho-methoxy-substituted catechols.
- Author
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Johnson DK, Schillinger KJ, Kwait DM, Hughes CV, McNamara EJ, Ishmael F, O'Donnell RW, Chang MM, Hogg MG, Dordick JS, Santhanam L, Ziegler LM, and Holland JA
- Subjects
- Acetophenones chemistry, Catechols chemistry, Cysteine pharmacology, Dimerization, Endothelium, Vascular drug effects, Endothelium, Vascular growth & development, Glutathione pharmacology, Hydrogen Peroxide metabolism, Models, Chemical, NADH, NADPH Oxidoreductases antagonists & inhibitors, NADH, NADPH Oxidoreductases blood, Oxidation-Reduction, Peroxidase metabolism, Reactive Oxygen Species analysis, Superoxides metabolism, Ubiquinone metabolism, Acetophenones pharmacology, Catechols pharmacology, Endothelium, Vascular enzymology, Enzyme Inhibitors pharmacology, NADPH Oxidases metabolism
- Abstract
NADPH oxidase is a major enzymatic source of oxygen free radicals in stimulated endothelial cells (ECs). The ortho-methoxy-substituted catechol, apocynin (4-hydroxy-3-methoxyacetophenone), isolated from the traditional medicinal plant Picrorhiza kurroa, inhibits the release of superoxide anion (O2*-) by this enzyme. The compound acts by blocking the assembly of a functional NADPH oxidase complex. The underlying chemistry of this inhibitory activity, and its physiological significance to EC proliferation, have been investigated. A critical event is the reaction of ortho-methoxy-substituted catechols with reactive oxygen species (ROS) and peroxidase. Analysis of this reaction reveals that apocynin is converted to a symmetrical dimer through the formation of a 5,5' carbon-carbon bond. Both reduced glutathione and L-cysteine inhibit this dimerization process. Catechols without the ortho-methoxy-substituted group do not undergo this chemical reaction. Superoxide production by an endothelial cell-free system incubated with apocynin was nearly completely inhibited after a lagtime for inhibition of ca. 2 min. Conversely, O2*- production was nearly completely inhibited, without a lagtime, by incubation with the dimeric form of apocynin. The apocynin dimer undergoes a two-electron transfer reaction with standard redox potentials of -0.75 and -1.34 V as determined by cyclic voltammetry. Inhibition of endothelial NADPH oxidase by apocynin caused a dose-dependent inhibition of cell proliferation. These findings identify a metabolite of an ortho-methoxy-substituted catechol, which may be the active compound formed within stimulated ECs that prevents NADPH oxidase complex assembly and activation.
- Published
- 2002
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