Assistant Professor, Vanderbilt University
Death and disease from obesity are largely due to the development of insulin resistance. Insulin resistance leads to diabetes and a dyslipidemia characterized by high triglycerides and low HDL. Our lab aims to understand how obesity alters control points in lipid metabolism. We focus on the mechanisms by which metabolism of glucose and triglyceride are coordinated -the body’s two main energy sources. The corollary is that relatively subtle failure this coordinate regulation could lead to abnormalities in both glucose and lipid metabolism -such as seen with obesity. We also study sex-difference in cardiovascular risk, which may related to the ability of estrogen to coordinate glucose and triglyceride metabolism.
For humans, elevated serum triglycerides lead to elevated triglycerides in other lipoproteins. Triglyceride-enrichment of HDL promotes more rapid HDL clearance, and may impair HDL’s protective cardiovascular effects. Rodents do not mimic this biology well. Thus, one research focus is to develop rodent models that are more similar to humans with regard to lipid metabolism. Mice transgenic for cholesteryl ester transfer protein (CETP) have increased transfer of triglyceride into HDL. We have found that cholesteryl ester transfer protein expressing mice model certain HDL changes with obesity. Rodent models with biology more similar to humans may serve as a bridge between basic research and human disease, and help define how obesity and diabetes impact cardiovascular risk
In addition to our experimental goals, a main focus is to train the next generation of scientist. We will create a research environment that is conductive to learning and testing new skills, as well as scientific ideas.