GEOapplication/xmlftp://ftp.ncbi.nlm.nih.gov/geo/series/GSE309nnn/GSE309526/primaryOK200GenomicsHomo sapiensGenome binding/occupancy profiling by high throughput sequencinghttps://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE309526GEOGSEfalseFriend of GATA2 variant Ser657Gly is associated with coronary microvascular diseaseBackground: The coronary microvasculature is crucial for proper cardiac function, and coronary microvascular disease (CMVD) has emerged as an underdiagnosed and undertreated cause of ischemic heart disease. Friend of GATA 2 (FOG2) is a transcriptional co-regulator crucial for coronary development and the maintenance of the coronary microvasculature in adult mice. Little is known about the role of FOG2 in humans or its role in CMVD. Here, we report a genotype-first approach to determine the role of FOG2 in human coronary microvascular disease. Methods: We performed phenome-wide association studies and deep cardiac phenotyping through the Electronic Health Record in individuals with FOG2 coding variants. We interrogated MagNET heart tissue data to identify genes and pathways associated with rs28374544. We then overexpressed FOG2S657G in a cardiomyocyte cell line and assessed the effects on cardiac metabolism and paracrine angiogenic signaling. Results: We identified an association between rs28374544 (A1969G, p.S657G) and CMVD. Using phenome-wide association studies and deep cardiac phenotyping through the Electronic Health Record in individuals with FOG2 coding variants, we identified an association between rs28374544 (A1969G, p.S657G) and CMVD. Individuals carrying the S657G variant, almost all of African ancestry, had increased chest pain, smaller burden of obstructive coronary artery disease, and altered coronary blood flow. Differential gene and pathway analysis using several genomic datasets showed that carriers of S657G have increased expression of genes involved in angiogenesis, glycolysis, and the hypoxia-inducible factor (HIF) pathway. In vitro functional studies show that compared with FOG2 wild-type protein, the FOG2 S657G variant protein promotes angiogenic gene expression and angiogenesis while decreasing oxygen consumption rate. Conclusions: A common functional coding variant in FOG2, S657G, is associated with CMVD in humans. Altered angiogenic gene expression, regulated in part by FOG2, may contribute to CMVD.2026/05/15GSE309526GSM9268716GSM9268709GSM9268711GSM9268710GSM9268713GSM9268712GSM9268715GSM926871424676309526Homo sapiens[41919390]