ATOH7 mutations cause autosomal recessive persistent hyperplasia of the primary vitreous

Lev Prasov, Tehmina Masud, Shagufta Khaliq, S. Qasim Mehdi, Aiysha Abid, Edward R. Oliver, Eduardo D. Silva, Amy Lewanda, Michael C. Brodsky, Mark Borchert, Daniel Kelberman, Jane C. Sowden, Mehul T. Dattani, Tom Glaser

Research output: Contribution to journalArticlepeer-review

44 Scopus citations


The vertebrate basic helix-loop-helix (bHLH) transcription factor ATOH7 (Math5) is specifically expressed in the embryonic neural retina and is required for the genesis of retinal ganglion cells (RGCs) and optic nerves. In Atoh7 mutant mice, the absence of trophic factors secreted by RGCs prevents the development of the intrinsic retinal vasculature and the regression of fetal blood vessels, causing persistent hyperplasia of the primary vitreous (PHPV). We therefore screened patients with hereditary PHPV, as well as bilateral optic nerve aplasia (ONA) or hypoplasia (ONH), for mutations in ATOH7. We identified a homozygous ATOH7 mutation (N46H) in a large family with an autosomal recessive PHPV disease trait linked to 10q21, and a heterozygous variant (R65G, p.Arg65Gly) in one of five sporadic ONA patients. High-density single-nucleotide polymorphism analysis also revealed a CNTN4 duplication and an OTX2 deletion in the ONA cohort. Functional analysis of ATOH7 bHLH domain substitutions, by electrophoretic mobility shift and luciferase cotransfection assays, revealed that the N46H variant cannot bind DNA or activate transcription, consistent with structural modeling. The N46H variant also failed to rescue RGC development in mouse Atoh7-/- retinal explants. The R65G variant retains all of these activities, similar to wild-type human ATOH7. Our results strongly suggest that autosomal recessive persistent hyperplastic primary vitreous is caused by N46H and is etiologically related to nonsyndromic congenital retinal nonattachment. The R65G allele, however, cannot explain the ONA phenotype. Our study firmly establishes ATOH7 as a retinal disease gene and provides a functional basis to analyze new coding variants.

Original languageEnglish (US)
Article numberdds197
Pages (from-to)3681-3694
Number of pages14
JournalHuman molecular genetics
Issue number16
StatePublished - Aug 2012

ASJC Scopus subject areas

  • Molecular Biology
  • Genetics
  • Genetics(clinical)


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