Project Summary This K08 mentored clinical scientist research career development award is a five-year program designed to facilitate Dr. Marios Arvanitis’ (PI) development into an independent physician-investigator in vascular genetics. Atherosclerotic cardiovascular disease (ASCVD) is a major public health burden that accounts for over 600,000 deaths in the United States each year. ASCVD is highly heritable and genome-wide association studies have discovered many candidate genomic loci that increase the risk of the disease in the population, thereby providing a window to novel therapies. However, most genomic risk loci for ASCVD remain unexplored in terms of how they lead to disease risk. Previously published work by the PI has focused on the mechanistic interpretation of genomic risk loci for cardiovascular disease, including the development of a novel Bayesian method, called CAFEH, to prioritize the target tissue and genes in genomic loci. Our preliminary analyses of the genetic underpinnings of ASCVD reveal that endothelial cells are enriched for ASCVD heritability, and we have used those methods to prioritize a chromosome 4 locus that is predicted to affect ASCVD risk via altering the expression of the RE-1 silencing transcription factor (REST) gene in endothelial cells. This K08 project will explore the regulatory mechanisms via which the REST locus and gene influence the development of atherosclerosis. Aim 1 will employ CRISPR-Cas9 editing in human stem cells which will then be differentiated into endothelial cells to identify the causal variants and the upstream transcription factors that mediate the association in the 4q12 coronary disease GWAS locus. Aim 2 will define distal genes and pathways affected by REST in the endothelium and investigate their cellular consequences, starting with evaluating the role of REST in endothelial to mesenchymal transition. Aim 3 will use a tamoxifen inducible endothelial specific Rest knock-out mouse model to evaluate the