Dietary Protein Clinical Trial
Official title:
Acute Effects of Dietary Protein on Monocyte/Macrophage mTOR Signaling and Downstream Sequela
High protein low carbohydrate diets have become popular in recent years to help facilitate weight loss. It is controversial if these diets are associated with an increased risk of cardiovascular disease. The investigators propose to administer high and low protein shakes to participants and measure effects on circulating monocytes, immune cells critical to the development of atherosclerosis and cardiovascular disease. In order to study circulating monocytes, blood will be collected from the study participants just prior to drinking the shake, and then 1 and 4 hours after drinking the shake. In order to assess functional effects on monocytes, investigators will perform a series of assays comparing the results between individuals who drank high protein vs low protein shakes.
Cardiovascular disease remains the leading cause of death globally with obesity as of one of the dominant modifiable risk factors. Obesity is also a precursor to several other cardiovascular risk factors including hypertension, hyperlipidemia, and diabetes. Almost all weight loss efforts utilize dietary modification with high protein/low carbohydrate diets serving as one of the most popular approaches. Despite the metabolic benefits of high dietary protein, recent studies have raised a concerning association with increased risk of atherosclerosis and cardiovascular disease. Although this remains controversial, there is some animal data showing evidence of dietary protein's proatherogenic role. These data are correlative and no mechanistic studies have been undertaken. The downstream events after protein ingestion involve digestion of the protein into amino acids, increases in blood amino acids, and distribution to target tissues. Mouse models have definitively shown that circulating monocytes and macrophages of arterial blood vessels are particularly sensitive to this amino acid load with robust activation of the mTOR (mammalian target of rapamycin) signaling pathway. This in turn leads to inhibition of essential degradative processes of the macrophage such as autophagy and promotes release of pro-inflammatory cytokines. Thus, macrophage function in vascular beds becomes pathogenic leading to atherogenesis and cardiovascular disease The translation of these mechanistic studies in animal models to human is the next obvious step in this research. However, no studies have elucidated the mechanisms of monocyte activation and function following administration of high dietary protein in humans. The investigators propose a pilot study to bridge an important gap in translational research which will elucidate the mechanisms by which dietary protein affects human monocyte function and the risk of atherosclerotic plaque formation. Specifically, the investigators will evaluate the acute activation of mTOR signaling and downstream sequelae in circulating monocytes following the administration of protein shakes. This study will address the hypothesis that humans exposed to high dietary protein will have significantly higher post-prandial monocyte mTOR activation with concomitant development of impaired degradative capacity and a proinflammatory state. An understanding of these mechanisms has broad implications in the evaluation and future therapeutic interventions of cardiovascular disease. In addition, this can provide a valuable clinical tool for health care providers in educating patients on dietary changes to ameliorate cardiovascular risk. ;
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