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ABSTRACT: Hyperglycemia is a well-known inducing factor of oxidative stress through activation of NADPH oxidase. In addition to its plasma glucose lowering effect, insulin may also have antioxidant activity and was shown to downregulate NADPH oxidase expression in vitro. In this study, we show that a short-term (3-day) intravenous insulin infusion in patients with type 2 diabetes induces normalization of both glycemia and mRNA expression of circulating monocyte p47(phox) subunit.
Fundamental and Clinical Pharmacology 06/2012; · 1.80 Impact Factor
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ABSTRACT: Isolated cardiomyocyte contractility was explored in a model of metabolic syndrome (the fructose-fed rat) and the effect of a treatment by a total red wine polyphenolic extract (RWPE) determined. Fructose-enriched diet impaired cardiomyocyte maximal shortening and velocities of contraction and relaxation, while RWPE was able to prevent those changes. Those studies suggest that red wine polyphenols are able to prevent the development of a cardiac phenotype commonly observed at an early stage of heart failure.
Journal of Wine Research. 07/2011; 22(2):147-149.
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ABSTRACT: We previously showed that grape extracts enriched in different polyphenolic families were similarly able to prevent reactive oxygen species (ROS) production, although having differential effects on various features of metabolic syndrome when administered at a dose of 21 mg/kg to the fructose (60%)-fed rat (a model of metabolic syndrome). In the present work, we analyzed on the same model the effect of pure polyphenolic molecules (catechin, resveratrol, delphinidin, and gallic acid) administered at a dose of 2.1 mg/kg. Delphinidin and gallic acid prevented insulin resistance, while gallic acid prevented the elevation of blood pressure. All molecules prevented cardiac ROS overproduction and NADPH overexpression. We also showed that fructose feeding was associated with cardiac fibrosis (accumulation of collagen I) and expression of osteopontin, a factor induced by ROS and a collagen I expression inducer. Collagen I and osteopontin expressions were prevented by the administration of all polyphenolic molecules. The potential use of polyphenols in the prevention of cardiac fibrosis should be further explored.
Journal of Agricultural and Food Chemistry 01/2009; 56(24):11683-7. · 2.82 Impact Factor
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ABSTRACT: Growing evidences suggest a role of oxidative stress in hypertension and cardiac hypertrophy. The fructose (60%)-fed rat represents a model of metabolic syndrome, associating insulin resistance and high blood pressure. In this model, hypertension, cardiac and vessels hypertrophy and markers of oxidative stress were determined. In addition, the production of reactive oxygen species (ROS) was evaluated at different times after the initiation of fructose-enriched diet in aorta, heart and polymorphonuclear cells. High fructose feeding was associated with an early (1-week) increase in ROS production by aorta, heart and circulatory polymorphonuclear cells, in association with enhanced markers of oxidative stress. Vascular and cardiac hypertrophy was also rapidly observed, while the rise in blood pressure was significant only after 3 weeks. In summary, our study suggests that the production of reactive oxygen species can be a key-event in the initiation and development of cardiovascular complications associated with insulin resistance.
Atherosclerosis 04/2005; 179(1):43-9. · 3.79 Impact Factor
