ABSTRACT
Objective:To analyze genetic factors and phenotype characteristics in pediatric population with slight-to-moderate sensorineural hearing loss. Methods:Children with slight-to-moderate sensorineural hearing loss of and their parents, enrolled from the Chinese Deafness Genome Project, were studied. Hearing levels were assessed using pure tone audiometry, behavioral audiometry, auditory steady state response(ASSR), auditory brainstem response(ABR) thresholds, and deformed partial otoacoustic emission(DPOAE). Classification of hearing loss is according to the 2022 American College of Medical Genetics and Genomics(ACMG) Clinical Practice Guidelines for Hearing Loss. Whole exome sequencing(WES) and deafness gene Panel testing were performed on peripheral venous blood from probands and validations were performed on their parents by Sanger sequencing. Results:All 134 patients had childhood onset, exhibiting bilateral symmetrical slight-to-moderate sensorineural hearing loss, as indicated by audiological examinations. Of the 134 patients, 29(21.6%) had a family history of hearing loss, and the rest were sporadic patients. Genetic causative genes were identified in 66(49.3%) patients. A total of 11 causative genes were detected, of which GJB2 was causative in 34 cases(51.5%), STRC in 10 cases(15.1%), MPZL2 gene in six cases(9.1%), and USH2A in five cases(7.6%).The most common gene detected in slight-to-moderate hearing loss was GJB2, with c. 109G>A homozygous mutation found in 16 cases(47.1%) and c. 109G>A compound heterozygous mutation in 9 cases(26.5%). Conclusion:This study provides a crucial genetic theory reference for early screening and detection of mild to moderate hearing loss in children, highlighting the predominance of recessive inheritance and the significance of gene like GJB2, STRC, MPZL2, USH2A.
Subject(s)
Humans , Child , Connexins/genetics , Connexin 26/genetics , Hearing Loss, Sensorineural/diagnosis , Mutation , Usher Syndromes , Hearing Loss, Bilateral , Audiometry, Pure-Tone , Intercellular Signaling Peptides and ProteinsABSTRACT
Objective:To elucidate the correlation between the GJB2 gene and auditory neuropathy, aiming to provide valuable insights for genetic counseling of affected individuals and their families. Methods:The general information, audiological data(including pure tone audiometry, distorted otoacoustic emission, auditory brainstem response, electrocochlography), imaging data and genetic test data of 117 auditory neuropathy patients, and the patients with GJB2 gene mutation were screened out for the correlation analysis of auditory neuropathy. Results:Total of 16 patients were found to have GJB2 gene mutations, all of which were pathogenic or likely pathogenic.was Among them, one patient had compound heterozygous variants GJB2[c. 427C>T][c. 358_360del], exhibiting total deafness. One was GJB2[c. 299_300delAT][c. 35_36insG]compound heterozygous variants, the audiological findings were severe hearing loss.The remaining 14 patients with GJB2 gene variants exhibited typical auditory neuropathy. Conclusion:In this study, the relationship between GJB2 gene and auditory neuropathy was preliminarily analyzed,and explained the possible pathogenic mechanism of GJB2 gene variants that may be related to auditory neuropathy.
Subject(s)
Humans , Connexins/genetics , Connexin 26/genetics , Hearing Loss, Central/genetics , Deafness/genetics , MutationABSTRACT
OBJECTIVE@#To assess the value of genetic screening by high-throughput sequencing (HTS) for the early diagnosis of neonatal diseases.@*METHODS@#A total of 2 060 neonates born at Ningbo Women and Children's Hospital from March to September 2021 were selected as the study subjects. All neonates had undergone conventional tandem mass spectrometry metabolite analysis and fluorescent immunoassay analysis. HTS was carried out to detect the definite pathogenic variant sites with high-frequency of 135 disease-related genes. Candidate variants were verified by Sanger sequencing or multiplex ligation-dependent probe amplification (MLPA).@*RESULTS@#Among the 2 060 newborns, 31 were diagnosed with genetic diseases, 557 were found to be carriers, and 1 472 were negative. Among the 31 neonates, 5 had G6PD, 19 had hereditary non-syndromic deafness due to variants of GJB2, GJB3 and MT-RNR1 genes, 2 had PAH gene variants, 1 had GAA gene variants, 1 had SMN1 gene variants, 2 had MTTL1 gene variants, and 1 had GH1 gene variants. Clinically, 1 child had Spinal muscular atrophy (SMA), 1 had Glycogen storage disease II, 2 had congenital deafness, and 5 had G6PD deficiency. One mother was diagnosed with SMA. No patient was detected by conventional tandem mass spectrometry. Conventional fluorescence immunoassay had revealed 5 cases of G6PD deficiency (all positive by genetic screening) and 2 cases of hypothyroidism (identified as carriers). The most common variants identified in this region have involved DUOX2 (3.93%), ATP7B (2.48%), SLC26A4 (2.38%), GJB2 (2.33%), PAH (2.09%) and SLC22A5 genes (2.09%).@*CONCLUSION@#Neonatal genetic screening has a wide range of detection and high detection rate, which can significantly improve the efficacy of newborn screening when combined with conventional screening and facilitate secondary prevention for the affected children, diagnosis of family members and genetic counseling for the carriers.
Subject(s)
Child , Infant, Newborn , Humans , Female , Prospective Studies , Connexins/genetics , Connexin 26/genetics , Glucosephosphate Dehydrogenase Deficiency , Mutation , Sulfate Transporters/genetics , DNA Mutational Analysis , Genetic Testing/methods , Deafness/genetics , Neonatal Screening/methods , Hearing Loss, Sensorineural/genetics , High-Throughput Nucleotide Sequencing , Solute Carrier Family 22 Member 5/geneticsABSTRACT
OBJECTIVE@#To analyze the clinical significance of combined newborn hearing and deafness gene screening in Yuncheng area of Shanxi Province.@*METHODS@#Results of audiological examinations, including transient evoked otoacoustic emission and automatic discriminative auditory brainstem evoked potentials, for 6 723 newborns born in Yuncheng area from January 1, 2021 to December 31, 2021, were retrospectively analyzed. Those who failed one of the tests were considered to have failed the examination. A deafness-related gene testing kit was used to detect 15 hot spot variants of common deafness-associated genes in China including GJB2, SLC26A4, GJB3, and mtDNA12S rRNA. Neonates who had passed the audiological examinations and those who had not were compared using a chi-square test.@*RESULTS@#Among the 6 723 neonates, 363 (5.40%) were found to carry variants. These have included 166 cases (2.47%) with GJB2 gene variants, 136 cases (2.03%) with SLC26A4 gene variants, 26 cases (0.39%) with mitochondrial 12S rRNA gene variants, and 33 cases (0.49%) with GJB3 gene variants. Among the 6 723 neonates, 267 had failed initial hearing screening, among which 244 had accepted a re-examination, for which 14 cases (5.73%) had failed again. This has yielded an approximate prevalence of hearing disorder of 0.21% (14/6 723). Among 230 newborns who had passed the re-examination, 10 (4.34%) were found to have carried a variant. By contrast, 4 out of the 14 neonates (28.57%) who had failed the re-examination had carried a variant, and there was a significant difference between the two groups (P < 0.05).@*CONCLUSION@#Genetic screening can provide an effective supplement to newborn hearing screening, and the combined screening can provide a best model for the prevention of hearing loss, which can enable early detection of deafness risks, targeted prevention measures, and genetic counseling to provide accurate prognosis for the newborns.
Subject(s)
Infant, Newborn , Humans , Connexins/genetics , Retrospective Studies , Deafness/genetics , Connexin 26/genetics , Neonatal Screening/methods , Mutation , Genetic Testing/methods , China/epidemiology , Hearing , DNA Mutational AnalysisABSTRACT
Clouston syndrome (OMIM #129500), also known as hidrotic ectodermal dysplasia type 2, is a rare autosomal dominant skin disorder. To date, four mutations in the GJB6 gene, G11R, V37E, A88V, and D50N, have been confirmed to cause this condition. In previous studies, the focus has been mainly on gene sequencing, and there has been a lack of research on clinical manifestations and pathogenesis. To confirm the diagnosis of this pedigree at the molecular level and summarize and analyse the clinical phenotype of patients and to provide a basis for further study of the pathogenesis of the disease, we performed whole-exome and Sanger sequencing on a large Chinese Clouston syndrome pedigree. Detailed clinical examination included histopathology, hair microscopy, and scanning electron microscopy. We found a novel heterozygous missense variant (c.134G>C:p.G45A) for Clouston syndrome. We identified a new clinical phenotype involving all nail needling pain in all patients and found a special honeycomb hole structure in the patients' hair under scanning electron microscopy. Our data reveal that a novel variant (c.134G>C:p.G45A) plays a likely pathogenic role in this pedigree and highlight that genetic testing is necessary for the diagnosis of Clouston syndrome.
Subject(s)
Humans , Connexin 30/genetics , Connexins/genetics , East Asian People , Ectodermal Dysplasia/pathology , PhenotypeABSTRACT
Abstract Background Dexmedetomidine (Dex) is widely used, and its most common side effect is bradycardia. The complete mechanism through which Dex induces bradycardia has not been elucidated. This research investigates the expression of gap junction proteins Connexin30.2 (Cx30.2) and Connexin40 (Cx40) within the sinoatrial node of rats with Dex-induced sinus bradycardia. Methods Eighty rats were randomly assigned to five groups. Saline was administered to rats in Group C. In the other four groups, the rats were administered Dex to induce bradycardia. In groups D1and D2, the rats were administered Dex at a loading dose of 30 μg.kg−1 and 100 μg.kg−1 for 10 min, then at 15 μg.kg−1.h−1 and 50 μg.kg−1.h−1 for 120 min separately. The rats in group D1A and D2A were administered Dex in the same way as in group D1and D2; however, immediately after the administration of the loading dose, 0.5 mg atropine was administered intravenously, and then at 0.5 mg.kg−1.h−1 for 120 min. The sinoatrial node was acquired after intravenous infusion was completed. Quantitative real-time polymerase chain reaction and western blot analyses were performed to measure mRNA and protein expression of Cx30.2 and Cx40, respectively. Results The expression of Cx30.2 increased, whereas the expression of Cx40 decreased within the sinoatrial node of rats with Dex-induced sinus bradycardia. Atropine reversed the effects of Dex on the expression of gap junction proteins. Conclusion Dex possibly altered the expression of gap junction proteins to slow down cardiac conduction velocity in the sinoatrial node.
Subject(s)
Animals , Rats , Sinoatrial Node/metabolism , Dexmedetomidine , Arrhythmias, Cardiac , Atropine Derivatives/metabolism , Bradycardia/chemically induced , Connexins/genetics , Connexins/metabolismABSTRACT
OBJECTIVE@#To detect common pathogenic variants associated with congenital deafness among neonates from Huizhou and surrounding areas and discuss its implications.@*METHODS@#Thirteen hot-spot mutations in four most common pathogenic genes were screened among 20 934 neonates from March 2017 to December 2019.@*RESULTS@#In total 760 neonates were found to carry common pathogenic variants (3.63%). Sixty two neonates have carried homozygous/compound heterozygous variants or homoplasmy/heteroplasmy mutations of mtDNA (0.29%). Further analysis of five abnormal cases revealed that 3 of them have carried compound heterozygous mutations of GJB2 gene, and 2 were due to compound heterozygous variants of the CDH23 gene.@*CONCLUSION@#Genetic testing has a great clinical significance for the prevention and reduction of congenital hearing loss, but the scope needs to be updated and redefined by removing mutation sites with a very low rate, adding new significant sites, and improvement of the technical strategies.
Subject(s)
Humans , Infant, Newborn , Connexin 26 , Connexins/genetics , DNA Mutational Analysis , Deafness/genetics , Genetic Testing , Hearing Loss/genetics , Mutation , Neonatal ScreeningABSTRACT
OBJECTIVE@#To detect additional variants for newborn carriers of single heterozygous variants of the GJB2 or SLC26A4 gene by genechip analysis in Changsha area, and explore the variation spectrum of deafness-related genes in this region.@*METHODS@#For 462 newborns carrying single heterozygous variants of the GJB2 or SLC26A4 gene, all exons of the genes were subjected to Sanger sequencing. The pathogenicity of the variants was analyzed by database and literature search.@*RESULTS@#For 305 newborns carrying a heterozygous GJB2 variant, 143 (46.49%) were found to carry additional variants, including 29 (9.51%) with c.109G>A likely pathogenic variant, and 1 (6.48%) with c.551G>A pathogenic variant. Among 153 newborns carrying single heterozygous variant of the SLC26A4 gene, 2 (1.31%) were found with a c.281C>T variant, and 1 (0.65%) with a c.1547_1548ins pathogenic variant. Among 4 newborns simultaneously carrying GJB2 and SLC26A4 variants, two were found to carry c.109G>A and c.844T>C variants (clinical significance unknown), respectively.@*CONCLUSION@#For newborns carrying single heterozygous variants of the GJB2 or SLC26A4 gene by genechip analysis, the detection rate for other variants is quite high. Sanger sequencing can significantly improve the detection rate of high-risk newborns and enrich the variant spectrum of deafness genes.
Subject(s)
Humans , Infant, Newborn , Connexins/genetics , DNA Mutational Analysis , Deafness/genetics , Genetic Carrier Screening , Heterozygote , Mutation , Oligonucleotide Array Sequence Analysis , Sulfate Transporters/geneticsABSTRACT
Abstract Introduction: In different parts of the world, mutations in the GJB2 gene are associated with nonsyndromic hearing loss, and the homozygous 35delG mutation (p.Gly12Valfs*2) is a major cause of hereditary hearing loss. However, the 35delG mutation is not equally prevalent across ethnicities, making it important to study other mutations, especially in multiethnic countries such as Brazil. Objective: This study aimed to identify different mutations in the GJB2 gene in patients with severe to profound nonsyndromic sensorineural hearing loss of putative genetic origin, and who were negative or heterozygote for the 35delG mutation. Methods: Observational study that analyzed 100 ethnically characterized Brazilian patients with nonsyndromic severe to profound sensorineural hearing loss, who were negative or heterozygote for the 35delG mutation. GJB2 mutations were detected by DNA-based sequencing in this population. Participants' ethnicities were identified as Latin European, Non-Latin European, Jewish, Native, Turkish, Afro-American, Asian and Others. Results: Sixteen participants were heterozygote for the 35delG mutation; 14 participants, including three 35delG heterozygote's, had nine different alterations in the GJB2 gene. One variant, p.Ser199Glnfs*9, detected in two participants, was previously unreported. Three variants were pathogenic (p.Trp172*, p.Val167Met, and p.Arg75Trp), two were non-pathogenic (p.Val27Ile and p.Ile196Thr), and three variants were indeterminate (p.Met34Thr, p.Arg127Leu, and p.Lys168Arg). Three cases of compound heterozygosity were detected: p.[(Gly12Valfs*2)];[(Trp172*)], p.[(Gly12Valfs*2)](;)[(Met34Thr)], and p.[(Gly12Valfs*2)(;)[(Ser199Glnfs*9)]). Conclusion: This study detected previously unclassified variants and one case of previously unreported compound heterozygosity.
Resumo Introdução: Em diferentes partes do mundo, mutações do gene GJB2 estão associadas a perda auditiva não sindrômica e a mutação homozigótica 35delG (p.Gly12Valfs*2) é uma das principais causas de perda auditiva hereditária. No entanto, a mutação 35delG não é igualmente prevalente em todas as etnias, faz com que seja importante estudar outras mutações, especialmente em países multiétnicos, como o Brasil. Objetivo: Identificar diferentes mutações no gene GJB2 em pacientes com perda auditiva neurossensorial grave ou profunda não sindrômica de origem genética putativa e negativos ou heterozigotos para a mutação 35delG. Método: Estudo observacional que analisou 100 pacientes brasileiros caracterizados etnicamente, com perda auditiva neurossensorial grave ou profunda não sindrômica, negativos ou heterozigotos para a mutação 35delG. As mutações de GJB2 foram detectadas por sequenciamento baseado no DNA nessa população. As etnias dos participantes foram identificadas como latino-europeia, não latino-europeia, judaica, nativa, turca, negra, asiática e outras. Resultados: Dezesseis participantes eram heterozigotos para a mutação 35delG e 14, incluindo três heterozigotos para 35delG, apresentaram nove alterações no gene GJB2. Uma variante, p.Ser199Glnfs*9, detectada em dois participantes, não havia sido relatada anteriormente. Três variantes eram patogênicas (p.Trp172*, p.Val167Met, e p.Arg75Trp), duas não patogênicas (p.Val27Ile e p.Ile196Thr) e três indeterminadas (p.Met34Thr, p.Arg127Leu, e p.Lys168Arg). Três casos de heterozigosidade composta foram detectados: p.[(Gly12Valfs*2)];[(Trp172*)], p.[(Gly12Valfs*2)](;)[(Met34Thr)], e p.[(Gly12Valfs*2)(;)[(Ser199Glnfs*9)]). Conclusão: Este estudo detectou variantes não classificadas anteriormente e um caso de heterozigosidade composta ainda não relatada.
Subject(s)
Humans , Male , Female , Child, Preschool , Child , Adolescent , Adult , Middle Aged , Young Adult , Connexins/genetics , Hearing Loss, Sensorineural/ethnology , Hearing Loss, Sensorineural/genetics , Mutation , Severity of Illness Index , Brazil/ethnology , Deafness/ethnology , Deafness/genetics , Gene Frequency , Hearing Loss, Sensorineural/congenitalABSTRACT
La hipoacusia congénita o de aparición temprana es un trastorno sensorial muy frecuente en niños. Las causas son diversas, pueden intervenir factores genéticos y/o ambientales. El 80% de la sordera hereditaria es no sindrómica y de herencia autosómica recesiva. Hasta un 50% de estos casos se deben a mutaciones en el locus DFNB1 donde están localizados los genes GJB2 y GJB6, que codifican las conexinas 26 y 30, dos proteínas que se expresan predominantemente en la cóclea. Se han reportado más de 100 mutaciones en el gen GJB2, con una mutación muy frecuente, 35delG, que representa hasta un 85% de los alelos mutados. Una deleción en el gen GJB6, (delGJB6-D13S1830), surge como la segunda mutación más frecuente. La hipoacusia debida a mutaciones en estos genes es de inicio prelocutivo, con un grado de severidad que varía de moderado a profundo, existiendo casos leves en menor proporción, con variaciones inter e intrafamiliares. Es generalmente estable, bilateral, y afecta a todas las frecuencias. El conocimiento de las causas genéticas de la hipoacusia ha permitido contar con nuevas herramientas para el diagnóstico, y como consecuencia, se ha optimizado el asesoramiento genético y facilitado el diagnóstico precoz de los pacientes, incluso en el período prenatal. La detección precoz tiene un impacto inmediato en la implementación de terapias que permiten una estimulación auditiva temprana. En esta revisión se describe el papel de las conexinas en la fisiología auditiva, así como también las características moleculares y audiológicas y el desempeño auditivo con audífonos e implante coclear en pacientes que presentan mutaciones en las conexinas 26 y 30.
Congenital or early appearing hearing loss is a very common sensory disorder in children. The causes for the disorder are diverse and genetic as well as environmental factors may be involved. Overall, 80% of the hereditary deafness is non-syndromic and of autosomal recessive inheritance. Up to 50% of the cases are associated with mutations in the DFNB1 locus that contains the GJB2 and the GJB6 genes encoding connexins 26 and 30, two proteins that are predominantly expressed in the cochlea. More than 100 mutations of the GJB2 have been reported. The 35delG is a common mutation accounting for up to 85% of the mutated alleles. A deletion in the GJB6 gene, (delGJB6-D13S1830), is the second most frequent mutation found. Hearing loss due to mutations in these genes has an onset before speech develops and degree of severity varies from moderate to severe, with a lower incidence of mild cases and inter- and intrafamily variations. The condition is usually stable, bilateral, and affecting all frequencies. Increased knowledge on the genetic causes of hearing loss has allowed for the development of new diagnostic tools and consequently, improvement of genetic counseling and early, even prenatal, diagnosis. Early detection has an immediate impact with implementation of early auditory stimulation therapies. In this review the role of connexins in auditory physiology described, as well as molecular and audiological features and auditory performance with hearing aids and cochlear implants in patients with connexins 26 and 30 mutations.
Subject(s)
Humans , Infant, Newborn , Infant , Child, Preschool , Child , Adolescent , Cochlear Implantation , Connexin 26 , Connexin 30 , Connexins/genetics , Hearing Loss, Sensorineural/congenital , Hearing Loss, Sensorineural/genetics , Argentina/epidemiology , Mutation , Pathology, MolecularABSTRACT
Congenital cataract, a clinically and genetically heterogeneous lens disorder is defined as any opacity of the lens presented from birth and is responsible for approximately 10% of worldwide childhood poor vision or blindness. To identify the genetic defect responsible for congenital nuclear cataract in a four-generation Chinese Han family, exome and direct Sanger sequencings were conducted and a missense variant c.139G>A (p.D47N) in the gap junction protein-alpha 3 gene (GJA3) was identified. The variant co-segregated with patients of the family and was not observed in unaffected family members or normal controls. The above findings indicated that the variant was a pathogenic mutation. The mutation p.D47N was found in the first extracellular loop (E1) domain of GJA3 protein. Our data suggest that exome sequencing is a powerful tool to discover mutation(s) in cataract, a disorder with high genetic heterogeneity. Our findings may also provide new insights into the cause and diagnosis of congenital nuclear cataract and have implications for genetic counseling.
Subject(s)
Adult , Animals , Asian People/genetics , Base Sequence , Cataract/congenital , Cataract/genetics , Cattle , Connexins/genetics , DNA Mutational Analysis , Exome/genetics , Female , Humans , Male , Middle Aged , Mutation , Pedigree , PhenotypeABSTRACT
A deficiência auditiva afeta cerca de 1 em cada 1000 recém-nascidos. Mutações no gene da conexina 26 (GJB2) são as causas mais frequentes de surdez não sindrômica em diferentes populações e é sabido que a mutação delGJB6-D13S1830 em DFNB30 é causadora de surdez neurossensorial. Muitos estudos descrevem o envolvimento de mutações no gene GJB2 com a deficiência auditiva em diferentes populações. Entretanto, existe pouca informação sobre a surdez genética no Brasil, especialmente na região Amazônica. OBJETIVO: Determinar a prevalência de mutações no gene GJB2 e da mutação delGJB6-D13S1830 em 77 casos esporádicos de surdez não sindrômicas. MÉTODO: A região codificante do gene GJB2 foi sequenciada e a PCR foi realizada para detectar a mutação delGJB6-D13S1830. RESULTADOS: O alelo 35delG foi encontrado em 9% dos pacientes (7/77). As mutações M34T e V95M foram detectadas em dois distintos pacientes heterozigotos. A mutação não patogênica V27I foi detectada em 28,6% (22/77). Não foi detectada a mutação delGJB6-D13S1830 em nenhum paciente estudado. CONCLUSÃO: Alelos mutantes no gene GJB2 foram observados em 40% (31/77) da amostra. Variantes patogênicas foram detectadas em apenas 12% (9/77). Mais estudos são necessários para elucidar causas genéticas de deficiência auditiva em populações miscigenadas.
Hearing impairment affects about 1 in 1000 newborns. Mutations in the connexin 26 (GJB2) gene rank among the most frequent causes of non-syndromic deafness in different populations, while delGJB6-D13S1830 mutation located in the DFNB30 locus is known to cause sensorineural hearing loss. Despite the many studies on the involvement of GJB2 mutations in hearing impairment in different populations, there is little information on genetic deafness in Brazil, especially in the Amazon region. OBJECTIVE: To determine the prevalence of GJB2 mutations and delGJB6-D13S1830 in 77 sporadic non-syndromic deaf patients. METHOD: The coding region of the GJB2 gene was sequenced and polymerase chain reaction was performed to detect the delGJB6-D13S1830 mutation. RESULTS: Mutant allele 35delG was found in 9% of the patients (7/77). Mutations M34T and V95M were detected in two distinct heterozygous patients. Non-pathogenic mutation V27I was detected in 28.6% of the patients (22/77). None of the deaf patients carried the delGJB6-D13S1830 mutation. CONCLUSION: Mutant alleles on gene GJB2 were observed in 40% (31/77) of the subjects in the sample. Pathogenic variants were detected in only 12% (9/77) of the individuals. More studies are required to elucidate the genetic causes of hearing loss in miscegenated populations.
Subject(s)
Child , Humans , Connexins/genetics , Genetic Predisposition to Disease , Hearing Loss, Sensorineural/genetics , Mutation/genetics , Gene Frequency , Genotype , Polymerase Chain ReactionABSTRACT
La principal causa de hipoacusia no-sindrómica autosómica recesiva (HNSAR) son mutaciones en el locus DFNB1, que contiene los genes GJB2 (conexina 26) y GJB6 (conexina 30). Se han descripto más de 100 mutaciones diferentes en GJB2. Dos deleciones en GJB6, del (GJB6-D13S1830) y del(GJB6-D13S1854) mostraron ser prevalentes en España. El objetivo de este trabajo fue determinar la prevalencia de mutaciones en los genes GJB2 y GJB6, en niños con HNSAR de Argentina. Este estudio incluyó 113 niños no relacionados con hipoacusia neurosensorial no-sindrómica moderada a profunda. Para el análisis molecular se utilizó una estrategia en etapas. La mutación 35delG (gen GJB2) se analizó mediante PCR-RFLP. La presencia de deleciones en GJB6 se investigó por PCR múltiple. Las muestras no resueltas en las dos primeras etapas fueron analizadas por secuenciación directa del gen GJB2. En 58 pacientes se encontraron alteraciones en la secuencia de los genes GJB2/GJB6. La mutación 35delG se detectó en 52 de los 84 alelos con mutaciones patogénicas. Se identificaron 16 variantes de secuencia diferentes; entre ellas una mutación no descripta previamente, 262G>C (A88P). La deleción del (GJB6-D13S1830) fue identificada en 7 alelos. La frecuencia de mutaciones en GJB2/GJB6 encontrada en este trabajo está en concordancia con la de otras poblaciones caucásicas. La mutación más prevalente fue 35delG y la segunda mutación más común la deleción del (GJB6-D13S1830), con frecuencias similares a las encontradas en España, desde donde Argentina recibió una de sus mayores olas inmigratorias. Estos resultados destacan la importancia del estudio de los genes GJB2/GJB6 en el diagnóstico etiológico de sordera permitiendo un tratamiento precoz y un asesoramiento genético oportuno.
The main cause of autosomal recessive nonsyndromic hear-ing loss (ARNSHL) are mutations in genes GJB2 (connexin 26) and GJB6 (connexin 30) at the DFNB1 locus. More than 100 different mutations in GJB2 have been described. Two dele-tions in GJB6, of (GJB6-D13S1830) and of (GJB6-D13S1854) have been found prevalent in Spain. The aim of this study was to determine the prevalence of GJB2 and GJB6 gene muta-tions in children with ARNSHL in Argentina. In the study, 113 non-related children with moderate to profound nonsyndromic sensorineural hearing loss were included. A staging strategy was used for molecular analysis. The 35delG mutation (gene GJB2) was analyzed using PCR-RFLP. The presence of de-letions in GJB6 was tested by multiplex PCR. Samples that were not resolved in the first two stages were subsequently assessed by direct sequencing of the GJB2 gene. In 58 patients abnormal patterns were found in the GJB2/GJB6 sequences. The 35delG mutation was detected in 52 of the 84 alleles with pathogenic mutations. Sixteen different sequence variants were identified of which one, 262G>C (A88P), was not previously described. Deletion of (GJB6-D13S1830) was identified in 7 alleles. The rate of mutations in GJB2/GJB6 found in this study is similar to that reported in other Caucasian populations. The most prevalent mutation was 35delG followed by a deletion of (GJB6-D13S1830), with a rate similar to that found in Spain from which Argentina received one of the largest waves of immigrants. These results emphasize the need to study GJB2/GJB6 genes in the etiological diagnosis of hearing loss allowing for early treatment and adequate genetic counseling.
Subject(s)
Humans , Male , Female , Infant , Child, Preschool , Child , Adolescent , Connexins/genetics , Genes , Mutation/genetics , Hearing Loss/congenital , Hearing Loss/diagnosis , Hearing Loss/etiology , Deafness/diagnosis , Deafness/etiology , ArgentinaABSTRACT
Families with at least 2 or more individuals having hereditary hearing loss were enrolled from different areas of Khyber Pakhtoonkhwa, mainly from district Peshawar. Detailed history was taken from each family to minimize the presence of other abnormalities and environmental causes for deafness. Families were questioned about skin pigmentation, hair pigmentation, and problems relating to balance, vision, night blindness, thyroid, kidneys, heart, and infectious diseases like meningitis, antibiotic usage, injury, and typhoid. The pedigree structures were based upon interviews with multiple family members, and pedigrees of the enrolled families were drawn using Cyrillic program (version 2.1). All families showed recessive mode of inheritance. I studied 8 families of these 10. For linkage analyses, studies for DFNB1 locus, 3 STR markers (D13S175, D13S292, and D13S787) were genotyped using polyacrylamide gel electrophoresis (PAGE) and haplotypes were constructed to determined, linkage with DFNB1 locus. From a total of 8 families, a single family-10 showed linkage to DFNB1 locus.
Subject(s)
Cohort Studies , Connexins/genetics , Deafness/epidemiology , Deafness/etiology , Deafness/genetics , Genetic Association Studies , Genetic Linkage/genetics , Haplotypes/genetics , Hearing Loss/epidemiology , Hearing Loss/etiology , Hearing Loss/genetics , Humans , Pakistan , Pedigree , PrevalenceABSTRACT
If not detected and treated early, congenital sensorineural hearing loss generates impairment in linguistic, intellectual and social development of individuals. Most congenital hearing deficits are genetic. The most common causes are mutations in GJB2 and GJB6 genes, both located on chromosome 13, encoding junction proteins that allow the transduction of sound in the inner ear. Objetive: To evaluate the presence of mutations in GJB2 and GJB6 genes in a population of children diagnosed with deafness in Complejo Hospitalario Sótero del Río since implementation of the universal newborn hearing screening program. Patients and Methods: 8 patients with congenital nonsyndromic sensorineural deafness were evaluated. Genomic DNA was extracted from oral mucosa swabs. PCR was performed to identify the 35 del G mutation in GJB2, followed by sequencing of this gene, and PCR for 2 GJB6 deletions. Results: Two patients were heterozygous for 35 del G mutation in GJB2, being their other alleles normal. Another 2 patients were heterozygous for V27I polymorphism, one of them also accompanied by p.A148A (c.444C > A) variant. A patient was found with a previously undescribed mutation (c.4360 C>T) in GJB2's intron 1, being the second allele normal. No mutations were identified in GJB6. Conclusions: In this population of children, mutations in the GJB2 gene were an identifiable cause of congenital sensorineural.
La hipoacusia neurosensorial congénita es una patología frecuente que si no es detectada y tratada oportunamente genera alteraciones en el desarrollo del niño. Desde el año 2005 se lleva a cabo en el Complejo Hospitalario Dr. Sótero del Río un programa de screening auditivo universal para la detección precoz de esta patología. La mayor parte de los déficits auditivos congénitos son genéticos. La etiología más común son las mutaciones en los genes GJB2 y GJB6, que codifican para proteínas "gap junction" que permiten la traducción del sonido en el oído interno. Objetivo: Evaluar la presencia de mutaciones de los genes GJB2 y GJB6 en una población de niños diagnosticados con hipoacusia congénita en el Complejo Hospitalario Dr. Sótero del Río a través del programa de screening auditivo universal. Pacientes y Método: Se evaluaron 8 pacientes con hipoacusia congénita neurosensorial no sindrómica. Se extrajo ADN genómico de hisopado de mucosa bucal y se realizó PCR para identificar la mutación 35 del G en GJB2, seguida de secuenciación de este gen, y PCR para 2 deleciones del gen GJB6. Resultados: Dos pacientes fueron heterocigotos para la mutación 35 del G en GJB2, siendo sus otros alelos normales. Dos fueron heterocigotos para el polimorfismo V27I; uno acompañado por la variante p.A148A (c.444 C > A). Se encontró además un paciente con una mutación no descrita anteriormente (c.4360 C>T) en el intrón 1 de GJB2, siendo su segundo alelo normal. No se identificaron mutaciones en GJB6. Conclusiones: En este grupo de niños estudiados se encontró mutaciones en el gen GJB2, causantes de sordera neurosensorial congénita.
Subject(s)
Humans , Child , Connexins/genetics , Genetic Testing , Mutation , Hearing Loss, Sensorineural/diagnosis , Hearing Loss, Sensorineural/genetics , Electrophoresis , Phenotype , Polymerase Chain Reaction , Hearing Loss, Sensorineural/congenitalABSTRACT
Introducción: Se estima que 1 de cada 1.000 niños presenta hipoacusia severa al nacimiento o en los primeros meses de vida y el 50 por ciento de las hipoacusias congénitas se relacionan con el gen de la conexina 26 (GJB2). En poblaciones caucásicas la variante patogénica 35delG del gen GJB2, que es la más frecuente, se encuentra en 30 por ciento de los pacientes con hipoacusia congénita no sindrómica. En Chile, la frecuencia de esta variante en escolares sordos no está descrita. Objetivos: Estimar la frecuencia de la mutación 35delG del gen GJB2 en niños con sordera congénita no sindrómica y no atribuible a causas ambientales conocidas, de colegios especiales de Santiago. Correlacionar la presencia de 35delG con los antecedentes clínicos de estos niños. Material y método: Se determinó la presencia de la mutación 35delG mediante PCR alelo específico y secuenciación automatizada en 81 escolares. Se buscó asociar la presencia de 35delG y los antecedentes clínicos de los niños mediante la prueba exacta de Fisher. Resultados: En el grupo estudiado, el 11,25 por ciento de los casos presentaron la variante 35delG, siendo ésta más frecuente en los casos en que había antecedentes familiares de sordera. En 8 casos se encontró una variante considerada no patogénica V27I. Conclusión: La frecuencia de la mutación 35delG fue inferior a lo esperado, probablemente debido al método de selección de los niños a estudiar (aquellos cuyos padres no referían causa conocida de sordera, lo cual no fue refrendado por exámenes de laboratorio que permitieran descartar enfermedades infecciosas u otras condiciones causantes de sordera).
Introduction: Congenital hearing loss occurs in 1 in 1000 live births and 50 percent of these cases are related with mutations in the connexin26 gene (GJB2). The 35delG variant is the most common of the known pathogenic alleles in Caucasian populations, reaching a frequency of 30 percent among the non syndromic congenital deaf people. The frequency of this variant has not been described in Chilean deaf children. Aim: To estimate the frequency of the 35delG GJB2 gene mutation in children with non syndromic congenital hearing loss of unknown etiology from deaf schools in Santiago, and to evaluate the association between clinical features of these children and the presence of the 35delG allele. Material and method: The presence of the 35delG mutation was studied by allele specific PCR and automatical sequencing in 81 children. The association between clinical issues and genotypes was explored by Fisher exact test. Results: We found the 35delG variant in 11,25 percent of the children, this mutation was more frequent in familial cases than sporadic cases of deafness. We also found the V27I non pathogenic variant in 8 cases. Conclusion: The frequency of the 35delG mutation was lower than the expected, probably due to the criterion used to select the school children to be studied.
Subject(s)
Humans , Child , Connexins/genetics , Students , Mutation , Deafness/genetics , DNA , Chile , Gene Frequency , Genotype , Polymerase Chain ReactionABSTRACT
Las pérdidas auditivas pueden ser atribuidas a factores genéticos o ambientales. Las mutaciones en el gen de la proteína Cx26 (conexina 26) son responsables de un 30-80% de los casos de pérdida auditiva profunda no sindrómica. La variante 35delG es la prevalente en la población caucásica. Entre los factores ambientales, el citomegalovirus (CMV) es la principal causa de infección congénita. Objetivos. Determinar la prevalencia de infección congénita por CMV y la frecuencia de la mutación 35delG en recién nacidos. Identifcar aquellos con riesgo de pérdida de audición con el fn de realizar un seguimiento audiológico para detectar precozmente las hipoacusias. Material y métodos. Se analizaron 1020 muestras de sangre seca, en papel, de recién nacidos, por PCR convencional y en tiempo real. Se efectuaron las otoemisiones acústicas antes del alta hospitalaria a todos los niños. El seguimiento audiológico se realizó tanto a los portadores de 35delG como a los que tuvieron infección congénita por CMV. Resultados. De los pacientes estudiados, 15 fueron heterocigotas para la mutación 35delG. No se detectaron homocigotas. Seis de las muestras fueron positivas para CMV (resultados confirmados en orina); de ellos, solo un neonato fue sintomático. A todos estos niños se les realizaron las evaluaciones audiológicas; presentaron hipoacusia tres niños con infección congénita por CMV y dos portadores de la mutación 35delG. Conclusión. Se detectó un 1,3% de portadores de la mutación 35delG y una frecuencia de infección congénita por CMV del 0,6%. El seguimiento audiológico de estas dos poblaciones permitió la detección de hipoacusias tardías.
Introduction. Hearing loss may be attributed to genetic and environmental factors. Mutations in the gene of the CX26 protein (connexin 26), are responsible for 30-80% of all cases of non-syndromic profound hearing loss. The 35delG is the most frequent variant in the caucasian population. As to environmental factors, the cytomegalovirus (CMV) is the main cause of congenital infection. Objetives. To determine the prevalence of congenital CMV infection and the frequency of the 35delG mutation in newborns. To identify those at risk of suffering hearing loss in order to do an audiologic follow-up of detected cases. Materials y methods. One thousand and twenty samples of dry blood spots corresponding to newborns were tested using conventional and real time PCR. Audiologic screening was performed to all newborns before hospital discharge. Results. Fifteen out of 1020 subjects were heterozygous for the mutation. No homozygous patients were found. Six out of the samples tested positive for CMV (confrmed by a urine sample), out of which only one newborn was symptomatic. The auditory brainstem response was recorded in all these children. Hearing loss was found in three children with congenital CMV infection and two with 35delG mutation. Conclusion. The frecuency of 35delG mutation carriers in our population was 1.3% and the CMV congenital infection prevalence was 0.6%. Audiologic monitoring of these two populations allowed detection of hearing loss of late onset.
Subject(s)
Humans , Infant, Newborn , Connexins/genetics , Cytomegalovirus Infections/complications , Cytomegalovirus Infections/congenital , Hearing Loss/etiology , Mutation , Audiometry , Cytomegalovirus Infections/epidemiology , Hearing Loss/diagnosis , Hearing Loss/genetics , Neonatal Screening , PrevalenceABSTRACT
Congenital cataracts are one of the most treatable causes of visual impairment and blindness during infancy, with an estimated prevalence of 1 to 6 cases per 10,000 live births. Approximately fifty percent of all congenital cataract cases may have a genetic cause. All three types of Mendelian inheritance have been reported for cataract; however, autosomal dominant transmission seems to be the most frequent. The transparency and high refractive index of the lens are achieved by the precise architecture of the fiber cells and the homeostasis of the lens proteins in terms of their concentration, stability, and supramolecular organization. Research on hereditary congenital cataract led to the identification of several classes of candidate genes that encode proteins such crystallins, lens specific connexins, aquaporine, cytoskeletal structural proteins, and developmental regulators. The purpose of this study was to review the literature on the recent advances made in understanding the molecular genetic basis of congenital cataracts.
A catarata congênita é uma das principais causas tratáveis de cegueira na infância, com prevalência estimada em 1 a 6 casos por 10.000 nascidos vivos, sendo a causa hereditária responsável por até metade dos casos. Dentre os padrões de herança já descritos para a catarata, a transmissão autossômica dominante é a mais frequente. A transparência e o alto índice refrativo do cristalino são resultados da disposição regular das fibras lenticulares e do equilíbrio homeostático; além da estabilidade e da organização supramolecular das proteínas do cristalino. Pesquisas sobre catarata congênita hereditária têm levado à identificação de várias classes de genes responsáveis pela codificação das proteínas do cristalino, tais como: cristalinas, conexinas, aquaporinas, proteínas do citoesqueleto e reguladores do desenvolvimento. O objetivo deste estudo foi a revisão da literatura sobre os recentes avanços na compreensão da base genética e molecular da catarata congênita.
Subject(s)
Humans , Cataract/congenital , Cataract/genetics , Mutation/genetics , Aquaporins/genetics , Connexins/genetics , Eye Proteins/geneticsABSTRACT
TEMA: avaliação audiológica de pais de indivíduos com perda auditiva de herança autossômica recessiva. OBJETIVO: estudar o perfil audiológico de pais de indivíduos com perda auditiva, de herança autossômica recessiva, inferida pela história familial ou por testes moleculares que detectaram mutação no gene GJB2, responsável por codificar a Conexina 26. MÉTODO: 36 indivíduos entre 30 e 60 anos foram avaliados e divididos em dois grupos: grupo controle, sem queixas auditivas e sem história familiar de deficiência auditiva, e grupo de estudos composto por pais heterozigotos em relação a genes de surdez de herança autossômica recessiva inespecífica ou portadores heterozigotos de mutação no gene da Conexina 26. Todos foram submetidos à audiometria tonal liminar (0,25kHz a 8), audiometria de altas freqüências (9kHz a 20) e emissões otoacústicas produtos de distorção (EOAPD). RESULTADOS: houve diferenças significativas na amplitude das EOAPD nas freqüências 1001 e 1501Hz entre os grupos, sendo maior a amplitude no grupo controle. Não houve diferença significativa entre os grupos para os limiares tonais de 0,25 a 20KHz. CONCLUSÃO: as EOAPD foram mais eficazes, em comparação com a audiometria tonal liminar, para detectar diferenças auditivas entre os grupos. Mais pesquisas são necessárias para verificar a confiabilidade destes dados.
BACKGROUND: audiological evaluation of parents of individuals with autosomal recessive hearing loss. AIM: to study the audiological profile of parents of individuals with autosomal recessive hearing loss, inferred by family history or by molecular tests that detected heterozygous mutations in the GJB2 gene. This gene codes Connexin 26. METHOD: participants were 36 subjects, ranging between 30 and 60 years, who were divided into two groups: a control group composed by individuals without auditory complaints and without family history of hearing loss, and a research group composed by heterozygous parents of individuals with autosomal recessive hearing loss or heterozygous for connexin 26 mutations. All subjects underwent pure tone audiometry (0,25 to 8kHz), high frequencies audiometry (9 to 20kHz) and distortion product otoacoustic emissions (DPOAE). RESULTS: there were significant differences between the groups when considering the amplitude of DPOAE in the frequencies of 1001 and 1501Hz. Amplitude was higher in the control group. There was no significant difference between the groups for pure tone thresholds from 0.25 to 20KHz. CONCLUSION: the DPOAE were more effective, in comparison to the pure tone audiometry, to detect auditory differences between the groups. More studies of this type are necessary to confirm the observed results.
Subject(s)
Adult , Female , Humans , Male , Middle Aged , Audiometry, Pure-Tone/methods , Genes, Recessive/genetics , Hearing Loss, High-Frequency/genetics , Otoacoustic Emissions, Spontaneous/physiology , Connexins/genetics , Hearing Loss, High-Frequency/diagnosis , Mutation/genetics , Reproducibility of Results , Statistics, NonparametricABSTRACT
Mutações no gene GJB2 constituem a principal causa de surdez genética de herança autossômica recessiva, sendo a mutação 35delG a mais comum em muitos grupos étnicos. Além da mutação 35delG em homozigose, a mutação também é encontrada em heterozigose composta, associada com outras mutações nos genes GJB2 ou GJB6. OBJETIVOS: Determinar a prevalência das mutações 35delG/GJB2 e del (GJB6-D13S1830) em portadores de deficiência auditiva neurossensorial, residentes no estado do Espírito Santo (Brasil). MATERIAL E MÉTODOS: Foram avaliados 77 indivíduos não relacionados, com perda auditiva neurossensorial de moderada a profunda. A mutação 35delG foi estudada através da técnica de PCR/RFLP e a mutação del (GJB6-D13S1830) foi rastreada por meio da técnica de PCR multiplex. RESULTADOS: 88,3 por cento apresentaram genótipo normal para as mutações estudadas, 1,3 por cento foram heterozigotos compostos, 3,9 por cento homozigotos para a mutação 35delG, 6,5 por cento heterozigotos para 35delG/GJB2. A frequência do alelo 35delG/GJB2 e do alelo del (D13S1830/GJB6) na amostra foi de 7,8 por cento e 0,65 por cento, respectivamente. CONCLUSÃO: Os dados obtidos confirmaram a existência das mutações estudadas em casos de perda auditiva neurossensorial na população do Espírito Santo/Brasil. Esses achados reforçam a importância do diagnóstico genético, que pode propiciar um tratamento precoce para crianças e aconselhamento genético para as famílias dos afetados.
Mutations in GJB2 gene are the leading cause of deafness in autosomal recessive inheritance, and the 35delG mutation is the most common in many ethnic groups. Besides the 35delG mutation in homozygosis, the mutation is also found in compound heterozygosis, coupled with other mutations in genes GJB2 and GJB6. AIM: To determine the prevalence of 35delG/GJB2 and del (GJB6-D13S1830) mutations in patients with sensorineural hearing impairment in residents from the Espirito Santo state, Brazil. MATERIALS AND METHODS: 77 unrelated individuals with moderate to profound sensorineural hearing loss were evaluated. The 35delG mutation was studied by PCR / RFLP; and the del (GJB6-D13S1830) mutation was screened by the technique of multiplex PCR. RESULTS: 88.3 percent had normal genotype for the studied mutations, 1.3 percent were compound heterozygotes, 3.9 percent homozygotic for the 35delG mutation, 6.5 percent heterozygotic for 35delG/GJB2. The frequency of 35delG/GJB2 and del (D13S1830/GJB6) alleles in the sample was 7.8 percent and 0.65 percent, respectively. CONCLUSION: The data confirmed the existence of the mutations studied in cases of sensorineural hearing loss in a population from Espírito Santo / Brazil. These findings reinforce the importance of genetic diagnosis, which can provide early treatment for children and genetic counseling for the affected families.