PURPOSE: To uncover the homozygous recessive gene mutation underlying familial lens subluxation and/or juvenile lens opacities in four sisters from a consanguineous family. METHODS: Prospective family study (clinical phenotyping; homozygosity-analysis-guided candidate gene testing). RESULTS: The proband was a 14-year-old girl with long-standing poor vision, bilateral temporal lens subluxation, lens opacities, and axial high myopia. There were no syndromic findings, and fibrillin-1 sequencing was normal. Three sisters, also non-syndromic, had undergone bilateral juvenile lens surgery (two for juvenile cataract, 1 for lens subluxation) within the first two decades of life. Both sisters who had cataract surgery developed bilateral post-operative retinal detachments and one had documented lens instability during cataract surgery. Genetic analysis revealed the phenotype to segregate with a novel homozygous recessive mutation in LEPREL1 (c.292delC; p.Gly100Alafs*104). Recessive mutations in this gene were recently highlighted as a cause for axial myopia and early-onset cataract in two families for whom some affected members also had ectopia lentis and/or post-operative retinal detachments. CONCLUSIONS: Recessive LEPREL1 mutations should be recognized as part of the differential diagnosis of lens subluxation. The associated phenotype is non-syndromic and distinguishable from other causes of ectopia lentis in the context of its additional features: juvenile lens opacities, axial myopia, and a predisposition to retinal tears/detachment following intraocular surgery.
PURPOSE: To uncover the homozygous recessive gene mutation underlying familial lens subluxation and/or juvenile lens opacities in four sisters from a consanguineous family. METHODS: Prospective family study (clinical phenotyping; homozygosity-analysis-guided candidate gene testing). RESULTS: The proband was a 14-year-old girl with long-standing poor vision, bilateral temporal lens subluxation, lens opacities, and axial high myopia. There were no syndromic findings, and fibrillin-1 sequencing was normal. Three sisters, also non-syndromic, had undergone bilateral juvenile lens surgery (two for juvenile cataract, 1 for lens subluxation) within the first two decades of life. Both sisters who had cataract surgery developed bilateral post-operative retinal detachments and one had documented lens instability during cataract surgery. Genetic analysis revealed the phenotype to segregate with a novel homozygous recessive mutation in LEPREL1 (c.292delC; p.Gly100Alafs*104). Recessive mutations in this gene were recently highlighted as a cause for axial myopia and early-onset cataract in two families for whom some affected members also had ectopia lentis and/or post-operative retinal detachments. CONCLUSIONS: Recessive LEPREL1 mutations should be recognized as part of the differential diagnosis of lens subluxation. The associated phenotype is non-syndromic and distinguishable from other causes of ectopia lentis in the context of its additional features: juvenile lens opacities, axial myopia, and a predisposition to retinal tears/detachment following intraocular surgery.
Authors: Nisha Patel; Hanan E Shamseldin; Nadia Sakati; Arif O Khan; Ameen Softa; Fatima M Al-Fadhli; Mais Hashem; Firdous M Abdulwahab; Tarfa Alshidi; Rana Alomar; Eman Alobeid; Salma M Wakil; Dilek Colak; Fowzan S Alkuraya Journal: Am J Hum Genet Date: 2017-05-04 Impact factor: 11.025
Authors: David M Hudson; MaryAnn Weis; Jyoti Rai; Kyu Sang Joeng; Milena Dimori; Brendan H Lee; Roy Morello; David R Eyre Journal: J Biol Chem Date: 2017-01-23 Impact factor: 5.157
Authors: Arif O Khan; Lama AlAbdi; Nisha Patel; Rana Helaby; Mais Hashem; Firdous Abdulwahab; Fahad B AlBadr; Fowzan S Alkuraya Journal: Mol Genet Genomic Med Date: 2021-05-05 Impact factor: 2.183