PLoS ONE (Jan 2022)

Association analyses of rare variants identify two genes associated with refractive error.

  • Karina Patasova,
  • Annechien E G Haarman,
  • Anthony M Musolf,
  • Omar A Mahroo,
  • Jugnoo S Rahi,
  • Mario Falchi,
  • Virginie J M Verhoeven,
  • Joan E Bailey-Wilson,
  • Caroline C W Klaver,
  • Priya Duggal,
  • Alison Klein,
  • Jeremy A Guggenheim,
  • Chris J Hammond,
  • Pirro G Hysi,
  • CREAM Consortium; the UK Biobank Eye; Vision Consortium

DOI
https://doi.org/10.1371/journal.pone.0272379
Journal volume & issue
Vol. 17, no. 9
p. e0272379

Abstract

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PurposeGenetic variants identified through population-based genome-wide studies are generally of high frequency, exerting their action in the central part of the refractive error spectrum. However, the power to identify associations with variants of lower minor allele frequency is greatly reduced, requiring considerable sample sizes. Here we aim to assess the impact of rare variants on genetic variation of refractive errors in a very large general population cohort.MethodsGenetic association analyses of non-cyclopaedic autorefraction calculated as mean spherical equivalent (SPHE) used whole-exome sequence genotypic information from 50,893 unrelated participants in the UK Biobank of European ancestry. Gene-based analyses tested for association with SPHE using an optimised SNP-set kernel association test (SKAT-O) restricted to rare variants (minor allele frequency ResultsWe found strong statistical evidence for association of SPHE with the SIX6 (p-value = 2.15 x 10-10, or Bonferroni-Corrected p = 4.41x10-06) and the CRX gene (p-value = 6.65 x 10-08, or Bonferroni-Corrected p = 0.001). The SIX6 gene codes for a transcription factor believed to be critical to the eye, retina and optic disc development and morphology, while CRX regulates photoreceptor specification and expression of over 700 genes in the retina. These novel associations suggest an important role of genes involved in eye morphogenesis in refractive error.ConclusionThe results of our study support previous research highlighting the importance of rare variants to the genetic risk of refractive error. We explain some of the origins of the genetic signals seen in GWAS but also report for the first time a completely novel association with the CRX gene.