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Genome-wide association identifies ATOH7 as a major gene determining human optic disc size
journal contributionposted on 2023-05-17, 05:01 authored by Macgregor, S, Alexander HewittAlexander Hewitt, Hysi, PG, Ruddle, JB, Medland, SE, Henders, AK, Gordon, SD, Andrew, T, McEvoy, B, Sanfilippo, PG, Carbonaro, F, Tah, V, Li, YJ, Bennett, SL, Craig, JE, Montgomery, GW, Tran-Viet, KN, Brown, NL, Spector, TD, Martin, NG, Young, TL, Hammond, CJ, David MackeyDavid Mackey
Optic nerve assessment is important formany blinding diseases,with cup-to-disc ratio (CDR) assessments commonly used in both diagnosis and progression monitoring of glaucoma patients. Optic disc, cup, rim area and CDR measurements all show substantial variation between human populations and high heritability estimates within populations. To identify loci underlying these quantitative traits, weperformed a genome-wide association study in two Australian twin cohorts and identified rs3858145, P = 6.2 Ã— 10-10, near the ATOH7 gene as associated with the mean disc area. ATOH7 is known from studies in model organisms to play a key role in retinal ganglion cell formation. The association with rs3858145 was replicated in a cohort of UK twins, with a metaanalysis of the combined data yielding P = 3.4 Ã— 10-10. Imputation further increased the evidence for association for several SNPs in and around ATOH7 (P = 1.3 Ã— 10-10 to 4.3 Ã— 10-11, top SNP rs1900004). The meta-analysis also provided suggestive evidence for association for the cup area at rs690037, P = 1.5 Ã— 10-7, in the gene RFTN1.Direct sequencing ofATOH7 in 12 patients withoptic nerve hypoplasia, one of the leadingcauses ofblindness in children, revealed two novel non-synonymous mutations (Arg65Gly, Ala47Thr) which were not found in 90 unrelated controls (combined Fisher's exact P = 0.0136). Furthermore, theArg65Gly variantwas found to have very low frequency (0.00066) in an additional set of 672 controls. Â© The Author 2010. Published by Oxford University Press.
Publication titleHuman Molecular Genetics
Department/SchoolMenzies Institute for Medical Research
PublisherOxford Univ Press
Place of publicationGreat Clarendon St, Oxford, England, Ox2 6Dp