Genetic susceptibility to noise induced hearing (oss(NIHL))

A exposição contínua ao ruído de alta intensidade é o fator ambiental mais importante como causa de problemas auditivos em adultos. Esses tipos de perdas crônicas e irreversíveis causadas pelo ruído são chamados de Perdas Auditivas Induzidas por Ruído (PAIR). O objetivo desse estudo foi estudar a influência de fatores genéticos na susceptibilidade à PAIR. Para atingir esse objetivo comparamos uma amostra de indivíduos com PAIR e de indivíduos sem PAIR que trabalharam expostos ao ruído em relação à etnia, à história familial de perda auditiva, idade, tempo de exposição ao ruído, tabagismo e alcoolismo social. Para verificar a possível contribuição de fatores genéticos, testamos a presença de mutações conhecidas como causas freqüentes de surdez. As mutações testadas foram 35delG e 167delT no gene GJB2, as deleções Δ(GJB6-D13S1830) e Δ(GJB6-D13S1854) no gene GJB6 e A1555G (RFLP) no gene MT-RNR1. Determinamos as freqüências alélicas e genotípicas de um polimorfismo no gene GJB2 (SNP RS877098) e dos polimorfismos do tipo presença/deleção dos genes GSTM1 e GSTT1. Também verificamos a ocorrência e a freqüência de variações nas seqüências dos genes mitocondriais MT-RNR1 e MT-TS1, dois genes mitocondriais importantes como causa de surdez de herança materna. Nossa amostra constituiu-se de 107 indivíduos que apresentavam audiometrias sugestivas de PAIR (grupo PAIR), 44 indivíduos afetados por perdas de audição com curvas audiométricas que não eram sugestivas de PAIR (grupo PANO) e 104 indivíduos com audição normal (grupo NORMAL). Nossos resultados apontaram aumento significativo no número de parentes afetados por problemas de audição no grupo PAIR. O tabagismo, a idade e o tempo de exposição ao ruído também influenciaram significativamente na manifestação da PAIR. Aparentemente, não houve contribuição das mutações associadas à manifestação de surdez, 35delG e 167delT no gene GJB2, Δ(GJB6-D13S1830) e Δ(GJB6-D13S1854) no gene GJB6 e A1555G no gene MT-RNR1. Não houve diferença significativa nas freqüências dos alelos do SNP RS87098 (gene GJB2) entre os afetados e os não afetados. Observamos um aumento significativo do genótipo que corresponde a presença dos dois genes das enzimas GSTM1 e GSTT1 entre os indivíduos do grupo PAIR, sugerindo possível papel dessas enzimas relacionadas a proteção contra espécies reativas de oxigênio na etiologia da PAIR. Não observamos associação significativa entre nenhuma das 54 variantes de seqüências do DNA mitocondrial averiguadas nos genes MT-RNR1 e MT-TS1 (32 já previamente descritas e 22 detectadas nesse estudo) e a ocorrência de PAIR. Não observamos associação significativa da PAIR com o número total de variantes de seqüência do DNA mitocondrial observado em cada indivíduo. Não foi detectada associação significativa com os haplótipos constituídos por pares de variantes de seqüência do DNA mitocondrial. A comparação entre a concentração de peróxidos e de grupos sulfidril no soro de 15 indivíduos com PAIR com amostras de 15 indivíduos sem PAIR não revelou diferenças significativas. Em resumo, nosso estudo evidenciou a influência da história familial de perda auditiva na probabilidade de manifestação da PAIR e o possível papel das enzimas GSTT1 e GSTM1 na susceptibilidade a essa condição. Nossos achados reforçam a idéia de que a susceptibilidade à PAIR possa ser determinada por fatores genéticos.Chronic exposure to loud noise is the most important environmental cause of hearing impairment among adults. Chronic and irreversible hearing loss due to exposure to noise is named Noise Induced Hearing Loss (NIHL). The aim of this study was to investigate the influence of genetic factors in the susceptibility to NIHL. We compared individuals with and without NIHL regarding ethnic origin, familial history of hearing loss, age, noise exposure time, alcohol consumption and smoking habits. In order to investigate genetic factors associated to NIHL we screened frequent deafness causative mutations. The investigated mutations were 35delG and 167delT in the GJB2 gene, Δ(GJB6- D13S1830) and Δ(GJB6- D13S1854) in the GJB6 gene and A1555G in the MT-RNR1 gene. Allelic and genotypic frequencies were determined for the SNP RS877098 in the GJB2 gene, and for the polymorphic deletions of GSTM1 and GSTT1 genes. We also investigated the frequency of variants in the mitochondrial genes MT-RNR1 and MT-TS1, which are known to harbor many hearing loss causative mutations. Our sample comprised 107 individuals with suggestive NIHL audiograms, 44 individuals with hearing impairment and non-suggestive NIHL audiograms, and 104 normal hearing individuals. A significant increase in the number of relatives affected by hearing impairment was detected in the NIHL group, when compared to the normal hearing group. Smoking habits, age and noise exposure time significantly affected the probability of NIHL. We did not detected any effect of the deafness-causing mutations 35delG and 167delT in the GJB2 gene, Δ (GJB6- D13S1830) and Δ (GJB6- D13S1854) in the GJB6 gene, and A1555G in the MT-RNR1 gene. There was no significant difference in allelic and genotypic frequencies of SNP RS87098 (gene GJB2), but the presence of the two genes encoding GSTM1 and GSTT1 enzymes was increased in the NIHL group. We did not detect any significant association of any of the 54 sequence variants in the mitochondrial genes MT-RNR1 and MT-TS1 (32 previously described and 22 novel) with the occurrence of NIHL. No significant associations were observed between NIHL and either the total number of sequence variants detected in each individual or haplotypes (combinations of two variants). The comparison of peroxides and sulfhydryl groups concentrations in serum from 15 individuals with NIHL and 15 individuals without NIHL did not show significant differences. In conclusion, our study demonstrated a significant effect of family history of hearing loss on the probability of presenting NIHL and pointed to a possible role of GSTT1 and GSTM1 enzymes on the susceptibility to this condition. These findings reinforce the idea that susceptibility to NIHL has a genetic basis

Atualização em genética da surdez não-sindrômica

A surdez não-sindrômica é uma condição altamente heterogênea, com inúmeros genes de locos diferentes interferindo no desenvolvimento e na fisiologia da audição. Apresentamos uma revisão sobre a genética e biologia molecular do defeito. Estão envolvidos na surdez hereditária não-sindrômica cerca de 30genes autossômicos recessivos e 40 dominantes, 8 genes ligados ao cromossomo X e 5 mutações no DNA mitocondrial. 80% dos casos hereditários de surdez são determinados por mecanismo autossômico recessivo, com predomínio de uma única mutação, 35delG, no gene da Conexina 26, a qual é tida como a principal responsável pela deficiência auditiva neurossensorial congênita. Nos últimos anos, têm sido detectados vários casos de deficiência auditiva associada a mutações do DNA mitocondrial; a principal delas é a mutação A1555G, muitas vezes associada a casos de deficiência auditiva secundária ao uso de antibióticos aminoglicosídeos. Os avanços recentes na biologia molecular da surdez indicam ser justificável a triagem de mutações frequentes na surdez.Nonsyndromic hereditary deafness is a highly heterogeneous condition. Many different genes from many loci have been shown to influence the development and function of hearing. Here we present a review on the genetics and molecular biology of hearing loss. There exist about 30 different autosomal locirelated to recessive hearing loss, 40 dominant loci, eight X-linked loci; five different mitochondrial mutations have been already described. 80% of hereditary nonsyndromic hearing loss is produced by recessive mechanismand one specific mutation, 35delG, in the Conexin 26 gene, is the most frequent cause of congenital neurosensorial hearing loss. An increasing number of publications report cases of inherited hearing loss due to mitochondrial mutations; the most frequent of which is known as A1555G. In many families, hearing loss is associated to the use of aminoglicosidic antibiotics. Recent advances in molecular biology of hearing loss suggest that the screening of the frequent mutations in deaf populations should be considered

Role of the Mitochondrial Mutations, m. 827A > G and the Novel m. 7462C > T, in the Origin of Hearing Loss

Samples from 30 deaf probands exhibiting features suggestive of syndromic mitochondrial deafness or from families with maternal transmission of deafness were selected for investigation of mutations in the mitochondrial genes MT-RNR1 and MT-TS1. Patients with mutation m. 1555A>G had been previously excluded from this sample. In the MT-RNR1 gene, five probands presented the m. 827A>G sequence variant, of uncertain pathogenicity. This change was also detected in 66 subjects of an unaffected control sample of 306 Brazilian individuals from various ethnic backgrounds. Given its high frequency, we consider it unlikely to have a pathogenic role on hereditary deafness. As to the MT-TS1 gene, one proband presented the previously known pathogenic m. 7472insC mutation and three probands presented a novel variant, m. 7462C>T, which was absent from the same control sample of 306 individuals. Because of its absence in control samples and association with a family history of hearing impairment, we suggest it might be a novel pathogenic mutation.CEPID-FAPESPFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)CNPqConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq

Prevalence of GJB2 (Connexin-26) and GJB6 (Connexin-30) Mutations in a Cohort of 300 Brazilian Hearing-Impaired Individuals: Implications for Diagnosis and Genetic Counseling

Objective: Hereditary nonsyndromic deafness is an autosomal recessive condition in about 80% of cases, and point mutations in the GJB2 gene (connexin 26) and two deletions in the GJB6 gene (connexin 30), del(GJB6-D13S1830) and del(GJB6-D13S1854), are reported to account for 50% of recessive deafness, Aiming at establishing the frequencies of GJB2 mutations and GJB6 deletions in the Brazilian population, we screened 300 unrelated individuals with hearing impairment, who were not affected by known deafness related syndromes. Methods: We firstly screened the most frequently reported mutations, c.35delG and c.167delT in the GJB2 gene, and del(GJB6-D13S1830) and del(GJB6-D13S1854) in the GJB6 gene, through specific techniques. The detected c.35delG and c.167delT mutations were validated by sequencing. Other mutations in the GJB2 gene were screened by single-strand conformation polymorphism and the coding region was sequenced when abnormal patterns were found. Results: Pathogenic mutations in GJB2 and GJB6 genes were detected in 41 individuals (13.7%), and 80.5% (33/41) presented these mutations in homozygosis or compound heterozygosis, thus explaining their hearing defect. The c.35delG in the GJB2 gene was the most frequent mutation (37/300; 12.4%), detected in 23% familial and 6.2% the sporadic cases. The second most frequent mutation (1%; 3/300) was the del(GJB6- D13S1830), always found associated with the c.35delG mutation. Nineteen different sequence variations were found in the GJB2 gene. In addition to the c.35delG mutation, nine known pathogenic alterations were detected 0 67delT, p.Trp24X, p.Val37lle, c.176_191del16, c.235delC, p.Leu90Pro, p.Arg127His, c.509insA, and p.Arg184Pro, Five substitutions had been previously considered benign polymorphisms: c.-15C>T, p.Val27lle, p.Met34hr, p.Ala40Ala, and p.Gly160Ser. Two previously reported Mutations of unknown pathogenicity were found (p.Lys168Arg, and c.684C>A), and two novel substitutions, p.Leu81Val (c.G241C) and p.Met195Val (c.A583G), both in heterozygosis without an accompanying mutation in the other allele. None of these latter four variants of undefined status was present in a sample of 100 hearing controls. Conclusions: The present study demonstrates that Mutations in the GJB2 gene and del(GJB6 D13S1830) are important causes of hearing impairment in Brazil, thus justifying their screening in a routine basis. The diversity of variants in our sample reflects the ethnic heterogeneity of the Brazilian population.CEPIDFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)FAPESPConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)CNP

Novel OTOF mutations in Brazilian patients with auditory neuropathy

The OTOF gene encoding otoferlin is associated with auditory neuropathy (AN), a type of non-syndromic deafness. We investigated the contribution of OTOF mutations to AN and to non-syndromic recessive deafness in Brazil. A test for the Q829X mutation was carried out on a sample of 342 unrelated individuals with non-syndromic hearing loss, but none presented this mutation. We selected 48 cases suggestive of autosomal recessive inheritance, plus four familial and seven isolated cases of AN, for genotyping of five microsatellite markers linked to the OTOF gene. The haplotype analysis showed compatibility with linkage in 11 families (including the four families with AN). Samples of the 11 probands from these families and from seven isolated cases of AN were selected for an exon-by-exon screening for mutations in the OTOF gene. Ten different pathogenic variants were detected, among which six are novel. Among the 52 pedigrees with autosomal recessive inheritance (including four familial cases of AN), mutations were identified in 4 (7.7%). Among the 11 probands with AN, seven had at least one pathogenic mutation in the OTOF gene. Mutations in the OTOF gene are frequent causes of AN in Brazil and our results confirm that they are spread worldwide. Journal of Human Genetics (2009) 54, 382-385; doi: 10.1038/jhg.2009.45; published online 22 May 2009CNPqConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)FAPESPCEPID-Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)PRONEX Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq