Derek D. Schramm

A Dose-Response Effect from Chocolate Consumption on Plasma Epicatechin and Oxidative Damage

Evidence from epidemiological studies suggests that a diet high in plant foods and rich in polyphenols is inversely associated with a risk for cardiovascular and other chronic diseases. Chocolate, like red wine and green tea, is a polyphenol-rich food, primarily containing procyanidin polyphenols. These polyphenols are hypothesized to provide cardioprotective effects due to their ability to scavenge free radicals and inhibit lipid oxidation. Herein, we demonstrate that 2 h after the ingestion of a procyanidin-rich chocolate containing 5.3 mg total procyanidin/g, of which 1.3 mg/g was (-)-epicatechin (epicatechin), plasma levels of epicatechin increased 133 +/- 27, 258 +/- 29 and 355 +/- 49 nmol/L in individuals who consumed 27, 53 and 80 g of chocolate, respectively. That the rise in plasma epicatechin levels was functionally significant is suggested by observations of trends for dose-response increases in the plasma antioxidant capacity and decreases in plasma lipid oxidation products. The above data support the theories that in healthy adults, 1) a positive relationship exists between procyanidin consumption and plasma procyanidin concentration and 2) the rise in plasma epicatechin contributes to the ability of plasma to scavenge free radicals and to inhibit lipid peroxidation.

The effects of flavanol-rich cocoa and aspirin on ex vivo platelet function

BACKGROUND Flavanols modulate platelet function in vitro, but less is known of their in vivo effects and how they compare to pharmacological platelet inhibitors. We investigated the effect of a flavanol-rich cocoa beverage (897 mg/ml) in combination with and in comparison to aspirin on platelet function and activation in healthy subjects. METHODS AND RESULTS On separate test days in a crossover design, 16 healthy adults consumed aspirin (81 mg), cocoa (as a beverage), or aspirin plus cocoa. Platelet activation was measured by surface expression of P-selectin and PAC-1 binding to the activated conformation of the GPIIb/IIIa receptor (GPIIb/IIIa-act). Platelet function was measured on an analyzer (the PFA-100) that measures shear stress-induced platelet plug formation in response to collagen-epinephrine or collagen-ADP. Plasma epicatechin concentrations peaked approximately 2 h after subjects were given either the cocoa or aspirin plus cocoa. After 6 h, cocoa inhibited epinephrine-induced platelet function. Epinephrine-induced platelet function was inhibited 2 and 6 h after aspirin, and after aspirin plus cocoa. Epinephrine-stimulated P-selectin expression was inhibited by aspirin at 6 h, and after 2 and 6 h by aspirin plus cocoa. ADP-stimulated P-selectin expression was not affected by the treatments. Cocoa and aspirin, given separately, reduced epinephrine-stimulated GPIIb/IIIa-act expression at 2 and 6 h, respectively, and at 2 and 6 h when given together, suggesting an additive effective. ASA plus cocoa inhibited ADP-stimulated GPIIb/IIIa-act expression at 6 h. CONCLUSIONS Flavanol-rich cocoa inhibited epinephrine-stimulated platelet activation and function. These effects were qualitatively similar to aspirin, but less profound. These results emphasize the need to further examine the effects of food flavonoids for platelet modulating effects.

Food effects on the absorption and pharmacokinetics of cocoa flavanols.

Macronutrients in food and gastric acid are known to have a pronounced effect on the metabolism of many xenobiotics, an effect that impacts their efficacy as bioactive agents. In this investigation we assessed the impact of select food treatments and the histamine H(2)-receptor antagonist Famotidine (Pepcid-AC) on flavanol absorption and metabolism. Four crossover intervention studies were conducted with 6 subjects each. Volunteers consumed sugar-free, flavanol-rich cocoa (0.125 g/kg body wt) alone, with macronutrient-rich foods (8.75 or 17.5 kJ/kg subject body wt) or Famotidine (Pepcid-AC). Blood samples were drawn at 5 time points including baseline. Plasma samples were analyzed for epicatechin and catechin flavanols by HPLC. Pharmacokinetic parameters were assessed using non-compartmental methodology. When provided at 17.5 kJ/kg subject body weight (approximately 4 kcal/kg), sugar and bread test meals increased flavanol area under the curve (AUC) values to 140% of control values (P < 0.05). A corresponding tendency for plasma antioxidant capacity to increase was observed for the cocoa treatment at 1.5 and 2.5 h (P < 0.17, P < 0.06, respectively). The ability of treatment meals to affect AUC values was positively correlated with treatment carbohydrate content (r = 0.83; P< 0.02). In contrast to carbohydrate rich meals, lipid and protein rich meals and Famotidine treatment had minimal effects on flavanol absorption. Based on C(max) and AUC values, this data suggests that the uptake of flavanols can be increased significantly by concurrent carbohydrate consumption.

Potential effects of flavonoids on the etiology of vascular disease

Data from animal and epidemiological studies suggest that dietary flavonoids protect against the development of vascular disease. Despite the focus of attention on the ability of flavonoids to act as antioxidants and to alter endothelial cell eicosanoid production, a vast number of other mechanisms exist through which flavonoids could function to inhibit the development of vascular disease in humans. Reviewed here are six other factors that can influence the development of vascular disease in humans and the potential impact of flavonoids on each: adhesion receptor expression, bacterial replication, carbohydrate-induced AGE (advanced glycation end product) formation, estrogenic effects, proteolytic enzymes, and viral replication. Reviewed data suggest that if the total plasma flavonoid load exceeds a few micromoles per liter in vivo, flavonoids will protect humans against vascular damage that results from the aforementioned causes.

Influence of cocoa flavanols and procyanidins on free radical-induced human erythrocyte hemolysis.

Cocoa can be a rich source of antioxidants including the flavan-3-ols, epicatechin and catechin, and their oligomers (procyanidins). While these flavonoids have been reported to reduce the rate of free radical-induced erythrocyte hemolysis in experimental animal models, little is known about their effect on human erythrocyte hemolysis. The major objective of this work was to study the effect of a flavonoid-rich cocoa beverage on the resistance of human erythrocytes to oxidative stress. A second objective was to assess the effects of select purified cocoa flavonoids, epicatechin, catechin, the procyanidin Dimer B2 and one of its major metabolites, 3ʹ-O-methyl epicatechin, on free radical-induced erythrocyte hemolysis in vitro. Peripheral blood was obtained from 8 healthy subjects before and 1, 2, 4 and 8 h after consuming a flavonoid-rich cocoa beverage that provided 0.25 g/kg body weight (BW), 0.375 or 0.50 g/kg BW of cocoa. Plasma flavanol and dimer concentrations were determined for each subject. Erythrocyte hemolysis was evaluated using a controlled peroxidation reaction. Epicatechin, catechin, 3ʹ-O-methyl epicatechin and (-)-epicatechin-(4β > 8)epicatechin (Dimer B2) were detected in the plasma within 1 h after the consumption of the beverage. The susceptibility of erythrocytes to hemolysis was reduced significantly following the consumption of the beverages. The duration of the lag time, which reflects the capacity of cells to buffer free radicals, was increased. Consistent with the above, the purified flavonoids, epicatechin, catechin, Dimer B2 and the metabolite 3ʹ-O-methyl epicatechin, exhibited dose-dependent protection against AAPH-induced erythrocyte hemolysis at concentrations ranging from 2.5 to 20 μM. Erythrocytes from subjects consuming flavonoid-rich cocoa show reduced susceptibility to free radical-induced hemolysis (p < 0.05).

Effects of Flavonoid-Rich Beverages on Prostacyclin Synthesis in Humans and Human Aortic Endothelial Cells: Association with Ex Vivo Platelet Function

Diets rich in flavonoids have been associated with reduced risk for cardiovascular disease. This may be due, in part, to flavonoid-induced alterations in eicosanoid synthesis. Our objective was to identify plant-derived beverages that alter synthesis of prostacyclin in cultured human aortic endothelial cells (HAEC), and to determine if these beverages could alter in vivo 6-keto-prostaglandin F(1alpha) (a stable metabolite of prostacyclin) synthesis and platelet function. HAEC were treated with nine commonly consumed beverages to determine their effects on prostacyclin synthesis under acute and chronic treatment regimens. Orange, purple grape, and pomegranate juices and coffee (6-9 mL/kg) were then provided to 28 fasted, healthy adult subjects (eight men and 20 women) on five separate days. Plasma samples were collected immediately following juice consumption (baseline), and at 2 and 6 hours post-consumption. On an acute basis, administration of HAEC with pomegranate juice increased media prostacyclin. Chronic exposure to purple grape and pomegranate juice increased aortic endothelial cell prostacyclin synthesis (38% and 61%, respectively; P <.05). The consumption of purple grape, pomegranate, and orange juice prolonged epinephrine/collagen-induced clotting time (P <.05). Purple grape juice increased plasma 6-keto-prostaglandin F(1alpha) (20%; P <.05) at 2 hours; pomegranate and orange juice did not significantly influence plasma prostacyclin concentrations. Consistent with the in vitro data, coffee consumption did not influence clotting time or plasma prostacyclin concentrations. These results indicate that the HAEC model system can provide a qualitative means to screen food and food-derived products for biologic activity related to cardiovascular health.

Endothelial cell basal PGI2 release is stimulated by wine in vitro: One mechanism that may mediate the vasoprotective effects of wine

Abstract Wine consumption is correlated with a reduced incidence of cardiovascular disease. Experimental model systems have demonstrated that wine reduces platelet reactivity, thrombosis, and vasoconstriction. The objective of this investigation was to determine if a single mechanism could mediate these cardioprotective effects. Prostacyclin and nitric oxide are cell signaling molecules that have been described as inhibitors of vasoconstriction, platelet reactivity, and thrombosis. Endothelial cell release of these molecules was investigated because blood-borne phytochemicals can come in contact with endothelial cells. Cabernet Sauvignon , alcoholized and dealcholized, stimulated bovine aortic endothelial cell release of prostacyclin but not nitric oxide. In addition, concentrations that significantly increased prostacyclin release were equivalent to those previously published as inducers of vasorelaxation. Prostacyclin release seemed to be dependent on basal or subbasal protein kinase C activity and occurred in the presence of the calcium ionophore ionomycin. The conclusion from this study is that if wine acts in vivo as we observed it to in vitro, the ability of wine to inhibit platelet reactivity, thrombosis, and vasoconstriction could be mediated through the single mechanism of wine-induced prostacyclin release.