A novel variant in the GJB6 gene in a large Chinese family with a unique phenotype of Clouston syndrome / 医学前沿

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.

Congenital hearing loss: a literature review of the genetic etiology in a Mexican population / Pérdida auditiva congénita: revisión de la etiología genética en la población mexicana

Abstract Hearing loss is the most frequent sensory disorder, with an incidence of 1:1500 live newborns. In more than 50% of patients, it is associated with a genetic cause, while in up to 30% of cases, it is related to syndromic entities. We performed a literature review of studies on congenital hearing loss of genetic origin in the Mexican population. We identified eight reports that showed that the pathogenic variants most frequently associated with hearing loss are related to the GJB2 gene, although in a low percentage (3%). Other mutations were identified in the GJB6, SLC26A4, or CHD23 genes. On this basis, a possible diagnostic strategy in Mexican patients with hearing loss is to consider an initial screening of these three genes. If these genes were negative for pathogenic variants, the following steps would be to consider second-generation sequencing analysis focused on panels of genes associated with hearing loss, isolated or syndromic, and if necessary, to perform exome or whole-genome analysis. Establishing an etiologic cause is critical in clinically evaluating patients with congenital hearing loss and their families. It can help determine rehabilitation strategies, such as hearing aids or cochlear implants and provide information on disease progression and genetic counseling in this population.

Resumen La pérdida auditiva es la alteración sensorial más frecuente, con una incidencia de 1:1500 recién nacidos vivos. En más del 50% de los pacientes se asocia con una causa genética, mientras que en más del 30% de los casos se asocia con entidades sindrómicas. Se llevó a cabo una revisión de la literatura de las investigaciones sobre la pérdida auditiva congénita de origen genético en la población mexicana. Se identificaron ocho reportes en los que se demostró que las variantes patogénicas más frecuentemente asociadas con pérdida auditiva se encuentran en el gen GJB2, aunque en un porcentaje bajo (3%). Se identificaron otras mutaciones en los genes GJB6, SLC26A4 o CHD23. Con base en esta información, una posible estrategia diagnóstica en pacientes mexicanos con pérdida auditiva es considerar un primer paso en el tamiz diagnóstico con los tres genes mencionados. Si estos genes fueran negativos para variantes patogénicas, el siguiente paso sería considerar el análisis por secuenciación de segunda generación enfocado en paneles de genes asociados con pérdida auditiva, tanto aislada como sindrómica, y en caso necesario, realizar el análisis del exoma o del genoma completo. Establecer una causa etiológica es un componente crítico en la evaluación clínica de los pacientes con pérdida auditiva congénita, ya que puede ayudar a determinar las estrategias de manejo y rehabilitación, como el uso de auxiliares auditivos o implantes cocleares, proporcionar información sobre la progresión de la enfermedad y dar asesoramiento genético en esta población.

Molecular study of hearing loss in Minas Gerais, Brazil / Estudo molecular da perda auditiva em Minas Gerais, Brasil

Abstract Introduction: Deafness is the most frequent sensory deficit in humans. Incidence is estimated at 4:1000 births in Brazil. Specific programs for clinical care of patients with hearing loss are still scarce in Brazil and the issue is an important public health problem. Objective: To determine the frequency of 35delG and D13S1830 mutations in GJB2 and GJB6 genes respectively in patients with non-syndromic sensorineural hearing loss from Minas Gerais, Brazil. Methods: This research involved 53 individuals, who were assessed by a questionnaire for predicting the possibility of non-syndromic deafness and for data collecting. Samples were tested for the presence of the 35delG mutation in GJB2 gene and D13S1830 in GJB6 gene by polymerase chain reaction and restriction enzyme digestion. Results: Epidemiological research has shown that the majority of the subjects are unaware of the etiology and the pathogenesis of hearing loss. In 9 patients (16.98%), 35delG mutation was found in heterozygosis and the allele frequency was estimate to be around 8.5%. Although 9.61% of the patients reported having some degree of consanguinity between the parents and 12.08% reported other cases of deafness in their families, this mutation was not found in homozygosis. The D13S1830 mutation was not found in this study. Conclusion: This research describes for the first time the frequency of the 35delG and D13S1830 mutation in hearing-impaired individuals from Minas Gerais, Brazil, and the collected data reinforce the need for further studies in this population due to heterogeneity of hearing loss.

Resumo Introdução: A surdez é o déficit sensorial mais frequente em humanos. Estima-se que a incidência seja de 4:1.000 nascimentos no Brasil. Programas específicos para atendimento clínico de pacientes com perda auditiva são escassos no Brasil e a questão é um importante problema de saúde pública. Objetivo: Determinar a frequência das mutações 35delG no gene GJB2 e D13S1830 no GJB6 em pacientes deficientes auditivos de origem neurossensorial e não sindrômica de Minas Gerais, Brasil. Método: A pesquisa envolveu 53 indivíduos selecionados por meio de questionário o qual avaliou a possibilidade de surdez não sindrômica entre outros dados. As amostras foram testadas quanto à presença da mutação 35delG no gene GJB2 e D13S1830 no gene GJB6 por reação em cadeia da polimerase e digestão com enzima de restrição. Resultados: A pesquisa epidemiológica mostrou que a maioria dos indivíduos desconhece a etiologia da perda auditiva. Em 9 pacientes (16,98%), a mutação 35delG foi encontrada em heterozigose e a frequência alélica foi estimada em 8,5%. Embora 9,61% das pessoas tenham relatado algum grau de consanguinidade entre os pais e 12,08% relatassem outros casos de surdez em suas famílias, essa mutação não foi encontrada em homozigose. A mutação D13S1830 não foi encontrada neste estudo. Conclusão: Este trabalho descreve pela primeira vez a frequência da mutação 35delG e D13S1830 em deficientes auditivos de Minas Gerais, Brasil, e os dados coletados reforçam a necessidade de mais estudos nessa população devido à heterogeneidade da perda auditiva.

Mechanistic effect of the human GJB6 gene and its mutations in HaCaT cell proliferation and apoptosis

We constructed lentiviral vectors containing the human wild-type GJB6 gene and the mutant variants A88V and G11R. The three proteins were stably expressed by the Tet-on system in the HaCaT cell line and used to study the functional effect of the variants. The CCK-8 assay and flow cytometric analyses were used to determine the levels of cell proliferation and apoptosis. Western blot analyses were performed to analyze the relevant clinical indicators of hidrotic ectodermal dysplasia and markers of apoptosis in transfected HaCaT cells. The CCK8 assay and the flow cytometry results showed a significant increase (P<0.05) in the apoptosis of HaCaT cells expressing the A88V and G11R mutants. In addition, we demonstrated that the A88V and G11R mutants induced the apoptosis of transfected HaCaT cells via the activation of caspase-3, -8, -9, and PARA. No change was observed in the activity of BAX compared with the control. This study provides further clarification on the mechanisms underlying the effect of the mutant variants A88V and G11R of the GJB6 gene on the induction of HaCaT cell apoptosis.

Construction of HaCaT cell lines stably expressing the human GJB6 gene by using a Tet-On lentiviral vector and their identification / 中华皮肤科杂志

Objective To construct HaCaT cell lines stably expressing the wild type human GJB6 gene or its mutant by using a Tet-On lentiviral vector, and to lay an experimental foundation for studies on pathogenesis of hidrotic ectodermal dysplasia. Methods The wild-type human GJB6 gene and its mutant (A88V)were amplified by PCR, and then inserted into the Tet-on lentivirus plasmid to construct recombinant lentivirus vectors. The recombinants were identified by gene sequencing and enzymatic digestion. Cultured HaCaT cells were classified into three groups to be transfected with a negative control lentiviral vector (NC group), the lentivirus vector expressing the wild-type human GJB6 gene (WT group), or the lentivirus vector expressing the mutant human GJB6 gene (MU group). Puromycin was used to select HaCaT cell clones stably expressing the GJB6 gene which encodes the connexin 30 (Cx30)protein. The selected HaCaT cell clones were cultured with or without tetracycline for 48 hours, thereafter, real-time PCR(RT-PCR) was performed to detect GJB6 gene mRNA expression, Western-blot analysis to measure expressions of Cx30 and FLAG-tag proteins, and cell counting kit 8 (CCK8)assay to evaluate cellular proliferative activity. Results Enzymatic digestion and gene sequencing showed that recombinant lentivirus plasmids were successfully constructed. RT-PCR showed evidently increased mRNA expression of the GJB6 gene in stably transfected HaCaT cells. Moreover, the expression abundance of the GJB6 gene was 112.369 times higher in the WT group induced by tetracycline than in that without tetracycline treatment (P 0.05). Conclusion HaCaT cell lines which stably express the wild-type GJB6 gene or its mutant(A88V)are successfully constructed.

Investigation of the GJB6 Deletion Mutations Del (GJB6-D13s1830) and Del (GJB6-D13s1854) in Iranian Patients with Autosomal-Recessive Non-Syndromic Hearing Loss (ARNSHL)

Hearing loss (HL) is the most common inherited sensory disorder affecting about 1 in 1000 births. The first locus for nonsyndromic autosomal recessive HL is on chromosome 13q11-22. The two genes, GJB2 and GJB6, are closely located on chromosome and are known to be co-expressed in the embryonic cochlea. Deletion mutations involving GJB6 were associated with autosomal-recessive nonsyndromic hearing loss (ARNSHL) and in combination with a GJB2 mutation with digenic ARNSHL. The objective of this study was to screen for the del (GJB6-D13S1830) and del (GJB6-D13s1854) mutations in GJB6 gene in patients with ARNSHL from Iran, using multiplex PCR and direct sequencing methods. Agarose gel electrophoresis and DNA sequencing of amplified fragment of the PCR reaction showed none of the patients was found to carry deletion in GJB6 gene which indicates that these deletions are restricted to certain populations and indicating a founder effect regarding these deletions.

Clouston syndrome: gene diagnosis and pathogenic mechanism / 国际儿科学杂志

Clouston syndrome,also named hidrotic ectodermal dysplasia,is an autosomal dominant genetic disease.It is characterized by hypotrichosis,nail dystrophy and palmoplantar hyperkeratosis.It is caused by mutations in the GJB6 gene.Up to date,there are four GJB6 missense mutations that can cause Clouston syndrome:G1 1R,A88V,V37E and D50N.This article reviews the progress of gene diagnosis and pathogenic mechanism of Clouston syndrome,which can contribute to etiological diagnosis,genetic counseling,intervention as well as treatment.

Influencia de las mutaciones en los genes de conexina en el desarrollo de hipoacusia neurosensorial no sindrómica / Impact of mutations in connexin genes on the development of non-syndromic sensorineural hearing loss

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.

Evaluación de mutaciones en los genes GJB2 y GJB6 en pacientes con sordera congénita identificados mediante screening neonatal / Evaluation of GJB2 and GJB6 gene mutation in Chilean patients with congenital deafness identified through neonatal screening

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.