期刊
BRITISH JOURNAL OF PHARMACOLOGY
卷 170, 期 6, 页码 1190-1198出版社
WILEY
DOI: 10.1111/bph.12350
关键词
boldine; endothelial dysfunction; oxidative stress; diabetic mice
资金
- MOHE [H-20001-00-E000055]
- Hong Kong General Research Fund
- Chinese University of Hong Kong
- [PV008/2011B]
Background and PurposeBoldine is a potent natural antioxidant present in the leaves and bark of the Chilean boldo tree. Here we assessed the protective effects of boldine on endothelium in a range of models of diabetes, ex vivo and in vitro. Experimental ApproachVascular reactivity was studied in mouse aortas from db/db diabetic and normal mice. Reactive oxygen species (ROS) production, angiotensin AT(1) receptor localization and protein expression of oxidative stress markers in the vascular wall were evaluated by dihydroethidium fluorescence, lucigenin enhanced-chemiluminescence, immunohistochemistry and Western blot respectively. Primary cultures of mouse aortic endothelial cells, exposed to high concentrations of glucose (30mmol L-1) were also used. Key ResultsOral treatment (20mg kg(-1)day(-1), 7 days) or incubation in vitro with boldine (1mol L-1, 12h) enhanced endothelium-dependent aortic relaxations of db/db mice. Boldine reversed impaired relaxations induced by high glucose or angiotensin II (Ang II) in non-diabetic mouse aortas while it reduced the overproduction of ROS and increased phosphorylation of eNOS in db/db mouse aortas. Elevated expression of oxidative stress markers (bone morphogenic protein 4 (BMP4), nitrotyrosine and AT(1) receptors) were reduced in boldine-treated db/db mouse aortas. Ang II-stimulated BMP4 expression was inhibited by boldine, tempol, noggin or losartan. Boldine inhibited high glucose-stimulated ROS production and restored the decreased phosphorylation of eNOS in mouse aortic endothelial cells in culture. Conclusions and ImplicationsBoldine reduced oxidative stress and improved endothelium-dependent relaxation in aortas of diabetic mice largely through inhibiting ROS overproduction associated with Ang II-mediated BMP4-dependent mechanisms.
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