PAX6 allelic heterogeneity in Mexican congenital aniridia patients: expanding the mutational spectrum with seven novel pathogenic variants

Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ra...

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Published inClinical & experimental ophthalmology Vol. 45; no. 9; pp. 875 - 883
Main Authors Pérez‐Solórzano, Sofía, Chacón‐Camacho, Oscar F, Astiazarán, Mirena C, Ledesma‐Gil, Gerardo, Zenteno, Juan Carlos
Format Journal Article
LanguageEnglish
Published Australia Wiley Subscription Services, Inc 01.12.2017
Subjects
Adolescent
Adult
Alleles
Aniridia
Aniridia - epidemiology
Aniridia - genetics
Aniridia - metabolism
Child
Child, Preschool
DNA - genetics
DNA Mutational Analysis
Exons
Female
Genetic Heterogeneity
haploinsufficiency
hereditary eye diseases
Humans
Incidence
Male
Mexico - epidemiology
Middle Aged
Mutation
Ophthalmology
Pax6 protein
PAX6 Transcription Factor - genetics
PAX6 Transcription Factor - metabolism
Phenotype
Population studies
Young Adult
Mexico
DNA mutational analysis
haploinsufficiency
aniridia
hereditary eye diseases
Online AccessGet full text
ISSN1442-6404
1442-9071
1442-9071
DOI10.1111/ceo.12982

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Abstract Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study. Design Case series. Participants A total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included. Methods Sanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6. Main Outcome Measures Clinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members. Results Molecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found. Conclusions and Relevance The mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia‐related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.
AbstractList Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study. Design Case series. Participants A total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included. Methods Sanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6. Main Outcome Measures Clinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members. Results Molecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found. Conclusions and Relevance The mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia‐related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.
The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia.IMPORTANCEThe importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia.Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study.BACKGROUNDAniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study.Case series.DESIGNCase series.A total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included.PARTICIPANTSA total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included.Sanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6.METHODSSanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6.Clinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members.MAIN OUTCOME MEASURESClinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members.Molecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found.RESULTSMolecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found.The mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia-related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.CONCLUSIONS AND RELEVANCEThe mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia-related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.
The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study. Case series. A total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included. Sanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6. Clinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members. Molecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found. The mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia-related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.
Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background Aniridia is a panocular hereditary eye disease caused by mutations in the PAX6 transcription factor. Mutation detection rate is highly variable ranging from 30% to 90% in different populations. Very few studies have been published about the PAX6 mutational analysis in aniridia patients from Mexico. In order to establish a more representative PAX6 mutational frequency in the country, a cohort of 22 Mexican unrelated aniridia probands were analysed in this study. Design Case series. Participants A total of 22 Mexican probands with bilateral isolated aniridia and their available relatives were included. Methods Sanger sequencing was used for the mutational analysis of all coding exons and flanking intronic regions of PAX6. Main Outcome Measures Clinical characteristics and results of PAX6 mutational analysis in probands with aniridia and available family members. Results Molecular analysis of PAX6 in 22 index cases with aniridia allowed the identification of a total of 16 different mutations. Seven of these pathogenic variants are novel, including c.183C>G, p.(Y61*); c.718delC, p.(R240Efs*3); c.1149_1152delTCAG, p.(P385Wfs*139); c.257_266delAAATAGCCCA, p.(K86Sfs*35); c.836_843dupGCAACACA p.(P282Afs*86); c.1032+2_1032+3insT; and c.141+2T>A. Inter and intrafamilial phenotypic heterogeneity was found. Conclusions and Relevance The mutational diagnostic rate in this series was 77%, which is comparable with reports from other populations. Importantly, no founder mutations were identified in this case series. Our results add 7 novel PAX6 pathogenic variants to the aniridia-related mutational spectrum and reveal considerable PAX6 allelic heterogeneity in this population.
Author Zenteno, Juan Carlos
Pérez‐Solórzano, Sofía
Chacón‐Camacho, Oscar F
Ledesma‐Gil, Gerardo
Astiazarán, Mirena C
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crossref_primary_10_1038_s41431_018_0288_y
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Keywords DNA mutational analysis
haploinsufficiency
aniridia
hereditary eye diseases
Language English
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Snippet Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background...
The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Aniridia is a panocular...
Importance The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia. Background...
The importance of the study was to describe the clinical characteristics and mutational analysis of Mexican patients with aniridia.IMPORTANCEThe importance of...
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SubjectTerms Adolescent
Adult
Alleles
Aniridia
Aniridia - epidemiology
Aniridia - genetics
Aniridia - metabolism
Child
Child, Preschool
DNA - genetics
DNA Mutational Analysis
Exons
Female
Genetic Heterogeneity
haploinsufficiency
hereditary eye diseases
Humans
Incidence
Male
Mexico - epidemiology
Middle Aged
Mutation
Ophthalmology
Pax6 protein
PAX6 Transcription Factor - genetics
PAX6 Transcription Factor - metabolism
Phenotype
Population studies
Young Adult
Title PAX6 allelic heterogeneity in Mexican congenital aniridia patients: expanding the mutational spectrum with seven novel pathogenic variants
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fceo.12982
https://www.ncbi.nlm.nih.gov/pubmed/28488383
https://www.proquest.com/docview/1979460797
https://www.proquest.com/docview/1899104436
Volume 45
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