Obesity and weight gain are major modifiable risk factors for cardiovascular disease (CVD), and the prevalence of obesity has been increasing alarmingly in the past decades. Diet is among the most important environmental factors that may interact with genomic variations in affecting obesity epidemic. However, no genome-wide study on gene-diet interactions has been reported, and previous gene-diet interaction studies are severely flawed in design and analytic strategies. The goal of this application is to conduct novel, genome-wide analyses of gene-diet interactions on long-term changes in obesity traits (body mass index, BMI; and waist to hip ratio, WHR) in the period of time when obesity rapidly increased in the United States (~1980-2000), and apply state-of-the-art approaches to overcome the major challenges in the field. We will use the newly- developed 'variance prioritization' procedure to select genetic variants sensitive to interactions with environment (Ai 1); and examine interactions between the prioritized genetic variants and overall diet patterns/quality indices in five prospective cohorts including in total ~59,000 US men and women from the DietGen and CHARGE Consortia (Aim 2). Because information of dietary intakes, obesity traits, and genome- wide scans are available in all the cohorts, the proposed project will be conducted in an extremely cost-efficient manner. We have assembled a solid group of experienced collaborators with expertise in epidemiology, genetics, statistics, gene-environment interactions, and nutrition. We believe that findings of this unparalleled study will provide a unique opportunity to identify novel gene-diet interactions on obesity epidemic, and promote diet modifications on prevention and treatment of obesity and CVD.
In five well-established prospective cohorts including nearly 59,000 men and women, we will perform genome- wide analyses of the interactions between genetic variants and overall diet patterns/quality indices on long- term changes in body mass index (BMI) and waist to hip ratio (WHR) in the period of time when obesity rapidly increased in the United States (~1980 to 2000). We will apply the newly-developed 'variance prioritization' method to minimize multiple testing. Our findings will provide highly important and novel insights into the gene- diet interactions on obesity epidemic in the United States; and have wide public health applicability and clinical implications regarding treatment and prevention of obesity and cardiovascular disease (CVD).
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