The Effects Grapes on Health Indices

The specific aims are to:

1. Assess the effect of WGP compared to placebo on biomarkers of oxidative stress and inflammation in obese subjects over 4 week intervention periods in a randomized, cross-over, double-blind study.
2. Determine the effects of WGP compared to placebo on lipid and apolipoprotein parameters, and on biomarkers endothelial dysfunction, in obese subjects.
3. Investigate and characterize the effects of WGP compared to placebo on mononuclear cells (MNC) from obese subjects in response to the oxidative challenge of a high fat, high carbohydrate (HFHC) meal by examining monocyte indices such as oxidant stress-related transcription factors and downstream gene targets.

Health promotion and prevention of chronic diseases in the face of a continuing obesity epidemic is the most pressing public health issue today. Epidemiologic evidence supports a protective effect of plant food-rich dietary patterns, and an inverse relationship of fruit and vegetable consumption with chronic conditions like cardiovascular disease (CVD). However, the underlying causal mechanisms are not well understood. Prospective human studies examining consumption of polyphenol-rich whole grapes or their components have found benefits on markers of oxidative stress and blood lipids as have other food examples such as blackcurrant juice and strawberries. Putative mechanisms underlying the positive actions of polyphenol-rich grapes have been well described in recent reviews. A number of in-vitro cell culture and in-vivo animal studies with WGP and extracts support these mechanisms. However, relatively fewer human studies have been conducted examining biomarkers and potential mechanisms for attenuation of chronic inflammatory responses and meal-induced postprandial oxidative stress and inflammation in obese humans.

Obesity is a metabolic state recognized as being pro-inflammatory, leading to dysregulation of endothelial function, glucose and lipoprotein metabolism and cardiovascular risk. Consumption of high fat diets can further impair vascular reactivity in the postprandial period. Circulating MNC provide a representation of the overall inflammatory status of the body, which is accessible and can be used to examine mechanistic processes in response to chronic and meal-induced oxidative stress. Recent literature reports have described the effect of polyphenol-rich food consumption and Mediterranean diet patterns to reduce NF-κB activation as well as changes in downstream inflammatory gene expression in peripheral blood MNC's. Therefore, the proposed study will exploit this approach to examine short-term responses to a meal challenge as well as longer-term responses to daily consumption of whole grapes as assessed by plasma and mononuclear cell indices. This research will shed light on oxidant stress-related transcription factors and downstream gene targets involved in the anti-inflammatory effects of grape consumption in obese individuals who are at increased risk of chronic diseases.

Additional scientific data is needed to understand the links between diet and health and to develop effective dietary strategies to improve health outcomes, particularly in obesity. The use of polyphenol-rich whole grape powder to attenuate inflammatory mediators and biomarkers in blood and mononuclear cells of obese humans represents a targeted intervention approach in an at-risk population. The goal for the study is to examine the link between the beneficial effects of grapes as a food and health in a significant public health chronic disease. The outcomes of the study design will provide preliminary data which bridges well-controlled human translational research and fundamental research by examining cellular responses to grape consumption in a human clinical trial. The approach will generate new and unique data to extend scientific knowledge and allow for the development of a mechanistic component to a human feeding intervention.