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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.

We previously showed that flavanols and their related oligomers (FLO) isolated from cocoa can have immunomodulatory effects on production of the cytokines interleukin-1beta (IL-1beta), IL-2, and IL-4. In the present study, we examined whether selected FLO fractions isolated from cocoa (monomer through decamer) modulate IL-5 protein secretion from resting and phytohemagglutinin (PHA)-stimulated peripheral blood mononuclear cells (PBMC). Although FLO fractions were unstimulatory for IL-5 secretion in resting cells, PHA-induced IL-5 release from PBMC was markedly affected by certain FLO fractions. The monomeric and small oligomeric (dimer and trimer) fractions enhanced PHA stimulation by 50%, 54%, and 43%, respectively. In contrast, the larger oligomeric fractions (hexamer through decamer) inhibited IL-5 release in the range of 18% to 39%; the tetramer and pentamer showed intermediate effects. The increment in IL-5 suggests that FLO may preferentially stimulate immunoglobulin A. We suggest that in the oral cavity this could result in reduction in the risk for dental caries and periodontal disease. This work offers additional data for consideration of the health benefits of dietary FLO from a variety of foods, including those benefits associated specifically with consumption of some cocoas and chocolates.

Chocolate and cocoa are extensively used in many cultures. Although their composition has been studied, the functional significance of the components has not been as well defined. There are indications that cocoa constituents exert beneficial effects on human health, and therefore cocoa and chocolate may be considered functional foods. The use of functional foods to modulate human health has gained greater significance in recent years, and chocolate is widely consumed throughout society. We performed an extensive review of literature in both animal and human systems with respect to composition, bioavailability, comparative analysis with other food products and, especially, implications for cardiovascular disease and the human immune system. Although chocolate contains a high amount of saturated fats, the two major fatty acids are palmitic and stearic acid, which appear to have fewer implications for progression of coronary artery disease than other saturated fatty acids. In addition, the implications of flavonoids and other polyphenols in chocolate as antioxidants are significant, and their ability to modulate the immune system may also be applicable to infection and neoplasia. In this review, we attempt to place these issues in perspective and to provide the reader with an extensive summary of the literature on chocolate and cocoa and their potential mechanisms of action with respect to human health.