PT - JOURNAL ARTICLE AU - Boxiang Liu AU - Melissa A. Calton AU - Nathan S. Abell AU - Gillie Benchorin AU - Michael J. Gloudemans AU - Ming Chen AU - Jane Hu AU - Xin Li AU - Brunilda Balliu AU - Dean Bok AU - Stephen B. Montgomery AU - Douglas Vollrath TI - Ocular disease mechanisms elucidated by genetics of human fetal retinal pigment epithelium gene expression AID - 10.1101/446799 DP - 2018 Jan 01 TA - bioRxiv PG - 446799 4099 - http://biorxiv.org/content/early/2018/10/18/446799.short 4100 - http://biorxiv.org/content/early/2018/10/18/446799.full AB - The eye is an intricate organ with limited representation in large-scale functional genomics datasets. The retinal pigment epithelium (RPE) serves vital roles in ocular development and retinal homeostasis. We interrogated the genetics of gene expression of cultured human fetal RPE (fRPE) cells under two metabolic conditions. Genes with disproportionately high fRPE expression are enriched for genes related to inherited ocular diseases. Variants near these fRPE-selective genes explain a larger fraction of risk for both age-related macular degeneration (AMD) and myopia than variants near genes enriched in 53 other human tissues. Increased mitochondrial oxidation of glutamine by fRPE promoted expression of lipid synthesis genes implicated in AMD. Expression and splice quantitative trait loci (e/sQTL) analysis revealed shared and metabolic condition-specific loci of each type and several eQTL not previously described in any tissue. Fine mapping of fRPE e/sQTL across AMD and myopia genome-wide association data suggests new candidate genes, and mechanisms by which the same common variant of RDH5 contributes to both increased AMD risk and decreased myopia risk. Our study highlights the unique transcriptomic characteristics of fRPE and provides a resource to connect e/sQTL in a critical ocular cell type to monogenic and complex eye disorders.