Mutations in the EPHA2 gene are a major contributor to inherited cataracts in South-Eastern Australia

Congenital cataract is the most common cause of treatable visual impairment in children worldwide. Mutations in many different genes lead to congenital cataract. Recently, mutations in the receptor tyrosine kinase gene, EPHA2, have been found to cause congenital cataract in six different families. A...

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Veröffentlicht in:	PloS one 2013-08, Vol.8 (8), p.e72518-e72518
Hauptverfasser:	Dave, Alpana, Laurie, Kate, Staffieri, Sandra E, Taranath, Deepa, Mackey, David A, Mitchell, Paul, Wang, Jie Jin, Craig, Jamie E, Burdon, Kathryn P, Sharma, Shiwani
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Australia - epidemiology Biology Cataract - enzymology Cataract - epidemiology Cataract - genetics Cataracts Children Cohort Studies Congenital diseases Consent Disease Disease control EphA2 protein Ethics Families & family life Family Female Gene Frequency Gene sequencing Genes Genetic Diseases, Inborn - enzymology Genetic Diseases, Inborn - epidemiology Genetic Diseases, Inborn - genetics Genetic markers Genetic Predisposition to Disease Homeostasis Hospitals Humans Kinases Male Medicine Microsatellites Mutation Pedigree People with disabilities Phosphorylation Point Mutation Protein-tyrosine kinase receptors Receptor, EphA2 - genetics Receptor, EphA2 - metabolism Tyrosine
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description	Congenital cataract is the most common cause of treatable visual impairment in children worldwide. Mutations in many different genes lead to congenital cataract. Recently, mutations in the receptor tyrosine kinase gene, EPHA2, have been found to cause congenital cataract in six different families. Although these findings have established EPHA2 as a causative gene, the total contribution of mutations in this gene to congenital cataract is unknown. In this study, for the first time, a population-based approach was used to investigate the frequency of disease causing mutations in the EPHA2 gene in inherited cataract cases in South-Eastern Australia. A cohort of 84 familial congenital or juvenile cataract index cases was screened for mutations in the EPHA2 gene by direct sequencing. Novel changes were assessed for segregation with the disease within the family and in unrelated controls. Microsatellite marker analysis was performed to establish any relationship between families carrying the same mutation. We report a novel congenital cataract causing mutation c.1751C>T in the EPHA2 gene and the previously reported splice mutation c.2826-9G>A in two new families. Additionally, we report a rare variant rs139787163 potentially associated with increased susceptibility to cataract. Thus mutations in EPHA2 account for 4.7% of inherited cataract cases in South-Eastern Australia. Interestingly, the identified rare variant provides a link between congenital and age-related cataract.
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We report a novel congenital cataract causing mutation c.1751C>T in the EPHA2 gene and the previously reported splice mutation c.2826-9G>A in two new families. Additionally, we report a rare variant rs139787163 potentially associated with increased susceptibility to cataract. Thus mutations in EPHA2 account for 4.7% of inherited cataract cases in South-Eastern Australia. 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Mutations in many different genes lead to congenital cataract. Recently, mutations in the receptor tyrosine kinase gene, EPHA2, have been found to cause congenital cataract in six different families. Although these findings have established EPHA2 as a causative gene, the total contribution of mutations in this gene to congenital cataract is unknown. In this study, for the first time, a population-based approach was used to investigate the frequency of disease causing mutations in the EPHA2 gene in inherited cataract cases in South-Eastern Australia. A cohort of 84 familial congenital or juvenile cataract index cases was screened for mutations in the EPHA2 gene by direct sequencing. Novel changes were assessed for segregation with the disease within the family and in unrelated controls. Microsatellite marker analysis was performed to establish any relationship between families carrying the same mutation. 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Mutations in many different genes lead to congenital cataract. Recently, mutations in the receptor tyrosine kinase gene, EPHA2, have been found to cause congenital cataract in six different families. Although these findings have established EPHA2 as a causative gene, the total contribution of mutations in this gene to congenital cataract is unknown. In this study, for the first time, a population-based approach was used to investigate the frequency of disease causing mutations in the EPHA2 gene in inherited cataract cases in South-Eastern Australia. A cohort of 84 familial congenital or juvenile cataract index cases was screened for mutations in the EPHA2 gene by direct sequencing. Novel changes were assessed for segregation with the disease within the family and in unrelated controls. Microsatellite marker analysis was performed to establish any relationship between families carrying the same mutation. 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subjects	Age Australia - epidemiology Biology Cataract - enzymology Cataract - epidemiology Cataract - genetics Cataracts Children Cohort Studies Congenital diseases Consent Disease Disease control EphA2 protein Ethics Families & family life Family Female Gene Frequency Gene sequencing Genes Genetic Diseases, Inborn - enzymology Genetic Diseases, Inborn - epidemiology Genetic Diseases, Inborn - genetics Genetic markers Genetic Predisposition to Disease Homeostasis Hospitals Humans Kinases Male Medicine Microsatellites Mutation Pedigree People with disabilities Phosphorylation Point Mutation Protein-tyrosine kinase receptors Receptor, EphA2 - genetics Receptor, EphA2 - metabolism Tyrosine
title	Mutations in the EPHA2 gene are a major contributor to inherited cataracts in South-Eastern Australia
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