Genetics of glaucoma

JL Wiggs, LR Pasquale - Human molecular genetics, 2017 - academic.oup.com
Human molecular genetics, 2017academic.oup.com
Genetic and genomic studies, including genome-wide association studies (GWAS) have
accelerated the discovery of genes contributing to glaucoma, the leading cause of
irreversible blindness world-wide. Glaucoma can occur at all ages, with Mendelian
inheritance typical for the rare early onset disease (before age 40) and complex inheritance
evident in common adult-onset forms of disease. Recent studies have suggested possible
therapeutic targets for some patients with early-onset glaucoma based on the molecular and …
Abstract
Genetic and genomic studies, including genome-wide association studies (GWAS) have accelerated the discovery of genes contributing to glaucoma, the leading cause of irreversible blindness world-wide. Glaucoma can occur at all ages, with Mendelian inheritance typical for the rare early onset disease (before age 40) and complex inheritance evident in common adult-onset forms of disease. Recent studies have suggested possible therapeutic targets for some patients with early-onset glaucoma based on the molecular and cellular events caused by MYOC, OPTN and TBK1 mutations. Diagnostic genetic tests using early-onset glaucoma genes are also proving useful for pre-symptomatic disease detection and genetic counseling. Recent GWAS completed for three types of common adult-onset glaucoma have identified novel loci for POAG (primary-open-angle glaucoma) (ABCA1, AFAP1, GMDS, PMM2, TGFBR3, FNDC3B, ARHGEF12, GAS7, FOXC1, ATXN2, TXNRD2); PACG (primary angle-closure glaucoma (EPDR1, CHAT, GLIS3, FERMT2, DPM2-FAM102); and exfoliation syndrome (XFS) glaucoma (CACNA1A). In total sixteen genomic regions have been associated with POAG (including the normal tension glaucoma (NTG) subgroup), 8 with PACG and 2 with XFS. These studies are defining important biological pathways and processes that contribute to disease pathogenesis.
Oxford University Press