Abstract
We hypothesized that metabolites of dietary flavonoids attenuate impairments in nitric oxide (NO) bioavailability evoked by glucotoxic conditions mimicking Type 1 or 2 diabetes. To test this, human aortic endothelial cells were treated with either vehicle control, quercetin-3-O-glucoronide, piceatannol or 3-(3-hydroxyphenyl)propionoic acid for 24 h. These are metabolites of quercetin, resveratrol and proanthocyanidin, respectively. Next, cells were exposed to control (5 mM) or high (25 mM) glucose conditions for 48 h, followed by insulin treatment (100 nM, 10 min) to stimulate NO production. In control glucose conditions NO production, phosphorylated to total endothelial nitric oxide synthase (p-eNOSser1177: eNOS), and phosphorylated to total Akt (p-AktSer473: Akt) were all increased by insulin stimulation. This response was abolished during high glucose conditions. Pretreatment of cells with flavonoid metabolites prior to high glucose challenge preserved insulin stimulated increases in NO production, p-AktSer473: Akt and p-eNOSSer1177: eNOS. These effects may be secondary to oxidative stress as pretreatment with all flavonoid metabolites prevented elevations in reactive oxygen and nitrogen species in response to high glucose. These data support the hypothesis that beneficial effects of flavonoids on endothelial cell function in the context of glucotoxicity, at least in part, are secondary to their metabolites.
Highlights
Both flavonoid containing botanicals and isolated flavonoids can improve vascular function and blood pressure in animal models and humans
Individual pre-incubation with Q3G, or 3-HPP, or PIC preserved both insulinstimulated nitric oxide (NO) production and eNOSSer1177 phosphorylation under high glucose conditions (Figure 1). endothelial nitric oxide synthase (eNOS) activity can be modulated by phosphorylation by Akt or ERK, resulting in an increase or decrease in eNOS activity and NO production, respectively
Human aortic endothelial cells (HAEC) grown in high glucose conditions experienced a marked increase in reactive oxygen species (ROS)/reactive nitrogen species (RNS), that was prevented by pre-incubation with each of the flavonoid metabolites tested (Figure 2)
Summary
Both flavonoid containing botanicals and isolated flavonoids can improve vascular function and blood pressure in animal models and humans. The purpose of this study was to evaluate flavonoid metabolites in an in vitro model of hyperglycemia using cultured endothelial cells. While thousands of candidates exist, we selected a metabolite of quercetin, proanthocyanidin, and resveratrol, since each of these parent compounds, or botanicals containing them (for example, grape seed extract) have been studied and their efficacy demonstrated. We examined: (i) quercetin-3-O-glucoronide (Q3G), a conjugated form of quercetin commonly found in human plasma;
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