Prevalence of Mutations in Deafness‐Causing Genes in Cochlear Implanted Patients with Profound Nonsyndromic Sensorineural Hearing Loss in Shandong Province,China

The mutations of GJB2, SLC26A4, and mtDNA12SrRNA are the most common inherited causes of nonsyndromic sensorineural hearing loss (NSHL) in China, yet previous genetic screenings were mainly carried on patients with moderate‐to‐profound impairment. We aimed to detect the mutation frequencies in NSHL population within a more specified range of severity. Patients with profound NSHL who had undergone cochlear implantation in the Shandong Provincial Hospital (Shandong, China) were recruited. The majority (n = 472) were between 0.7 and 6 years old, and the remaining (n = 63) were between 6 and 70 years old. In total, 115 mutation alleles of the three genes were screened with SNP scan assay. Of the patients, 19.44% (104/535) were found to have GJB2 mutations, and the most common allele was c.235delC, followed by c.299_300delAT and c.109G>A. SLC26A4 mutations were detected in 13.46% patients (72/535), and the most common allele was c.919‐2A>G (IVS7‐2A>G), followed by c.1174A>T and c.2168A>G. Seven patients (1.31%) carried mutations in mtDNA12SrRNA, with the alleles of m.1555A>G and m.1494C>T. We found the allele frequency of c.109G>A (GJB2) was relatively lower in the profound NSHL population in comparison to the moderate‐to‐profound ones, and the c.1174A>T (SLC26A4) relatively higher. It suggests those mutations may be connected with the degree of deafness, which needs more observations and analyses to support.     

应用聚合酶链反应-限制性片段长度多态技术快速检测中国耳聋人群基因突变热点

目的 通过筛查耳聋基因热点突变:GJB2基因的235delC、SLC26A4基因的IVS7-2A>G和线粒体12S rRNA(12S)基因1555 A>G达到快速诊断耳聋患者.方法 多重PCR扩增包括GJB2、SLC26A4及12S基因的3个片段,限制性片段长度多态分析是否存在相应位点的突变.结果 200例耳聋患者中,共检测出235delC纯合突变18例,杂合突变18例;IVS7-2A>G纯合突变2例,杂合突变13例;1555 A>G突变8例.检测结果均与测序结果相符合.3个热点突变基因的致病单体的检出率为21.7%,基因诊断率为14%.结论 应用聚合酶链反应-限制性片段长度多态技术检测耳聋患者的热点突变是一种快速、简便、高效、经济的耳聋致病基因筛查的方法.     

湖州地区聋哑学校68名聋哑学生耳聋易感基因突变分析研究

目的研究4个耳聋易感基因GJB2、GJB3、SLC26A4、线粒体12SrRNA在湖州市聋哑学校68名聋哑学生中的突变类型分布情况。方法应用飞行时间质谱技术,对68名聋哑学生进行GJB2、GJB3、SLC26A4、线粒体12SrRNA 4个耳聋易感基因检测,检测位点包含以上基因的20个热点突变。结果68名聋哑学生中共检出耳聋基因突变27例,阳性率39.71％,其中GJB2基因突变19例,占70.37％;GJB3基因突变l例,占3.7％;SLC26A4基因突变5例,占18.52％;线粒体12SrRNA基因突变2例,占7.41％。结论在湖州市聋哑学校中,GJB2是最常见的耳聋突变基因,235delC是GJB2基因最常见的突变位点。     

Clinical features of patients with GJB2 (connexin 26) mutations: severity of hearing loss is correlated with genotypes and protein expression patterns

Mutations in the GJB2 (connexin 26, Cx26) gene are the major cause of nonsyndromic hearing impairment in many populations. Genetic testing offers opportunities to determine the cause of deafness and predict the course of hearing, enabling the prognostication of language development. In the current study, we compared severity of hearing impairment in 60 patients associated with biallelic GJB2 mutations and assessed the correlation of genotypes and phenotypes. Within a spectrum of GJB2 mutations found in the Japanese population, the phenotype of the most prevalent mutation, 235delC, was found to show more severe hearing impairment than that of V37I, which is the second most frequent mutation. The results of the present study, taken together with phenotypes caused by other types of mutations, support the general rule that phenotypes caused by the truncating GJB2 mutations are more severe than those caused by missense mutations. The present in vitro study further confirmed that differences in phenotypes could be explained by the protein expression pattern.     

Congenital Middle Ear Malformation with Common Deafness Gene Mutation Analysis: A Review of 813 Profound Sensorineural Hearing Loss Child Patients

Deafness gene variants play a key role in inner ear malformations. However, the relationship between congenital middle ear malformations and common deafness genes (GJB2, SLC26A4, and mtDNA) in profound sensorineural hearing loss (SNHL) child patients remains poorly investigated. Here we showed that there was no statistical significance in the total mutation frequency of the three common deafness genes in the middle ear malformation group (21.2%, 41/193) in comparison with the normal middle ear and inner ear group (21.0%, 116/553) (χ² = 0.0061, p = 0.940). Moreover, the mutation ratio of GJB2 and SLC26A4 in the middle ear malformation group (18.7%, 36/193; 2.6%, 5/193) was not significantly different from that in the normal middle ear and inner ear group (17.7%, 98/553; 2.4%, 13/553) (χ² = 0.084, p = 0.772; χ² = 0.0000, p = 1.000). The mutation ratio of GJB2 235delC and GJB2 79G>A in the middle ear malformation group (8.8%, 17/193; 8.8%, 17/193) was almost the same to that in the normal middle ear and inner ear group (8.6%, 48/553; 6.7%, 37/553) (χ² = 0.0030, p = 0.957; χ² = 0.9556, p = 0.328). The high jugular bulb subgroup analysis also showed the same results. Our findings suggested that GJB2, SLC26A4, and mtDNA mutations might not be related to the middle ear malformations in profound SNHL child patients. Anat Rec, 303:594–599, 2020. © 2019 American Association for Anatomy     

Mutations in the connexin26/GJB2 gene are the most common event in non-syndromic hearing loss among the German population

Congenital sensorineural hearing loss affects approximately 1/1,000 live births. Mutations in the gene encoding connexin26 (GJB2) have been described as a major cause of genetic nonsyndromic hearing impairment. Additionally, another gap junction gene, connexin30 (GJB6), was found to be responsible for hereditary hearing loss. We have studied 134 patients with severe to profound hearing loss or deafness and 13 patients with mild to moderate nonsyndromic sensorineural hearing loss in order to evaluate the prevalence of connexin26 and connexin30 mutations in Germany. Mutations in the connexin26 gene were found in 30 patients (22%) with profound to severe hearing impairment whereas only one novel single nucleotide polymorphism (396G-->A) in the connexin30 gene was detected. Among the 13 patients with mild to moderate hearing loss neither mutations in the connexin26 nor in the connexin30 gene could be detected. These results demonstrate that mutations in the connexin26 gene are also a frequent cause of hereditary non-syndromic hearing loss in Germany. Therefore a screening of mutations in the connexin26 gene should be performed in every case of non-syndromic hearing loss of unknown origin.     

Spectrum and Frequency of SLC26A4 Mutations Among Czech Patients with Early Hearing Loss with and without Enlarged Vestibular Aqueduct (EVA)

Mutations in SLC26A4 cause Pendred syndrome (PS) – hearing loss with goitre – or DFNB4 – non‐syndromic hearing loss (NSHL) with inner ear abnormalities such as Enlarged Vestibular Aqueduct (EVA) or Mondini Dysplasia (MD). We tested 303 unrelated Czech patients with early hearing loss (298 with NSHL and 5 with PS), all GJB2‐negative, for SLC26A4 mutations and evaluated their clinical and radiological phenotype. Among 115 available HRCT/MRI scans we detected three MD (2.6%), three Mondini‐like affections (2.6%), 16 EVA (13 bilateral – 19.2% and 15.6% respectively) and 61 EVA/MD‐negative scans (73.4%). We found mutation(s) in 26 patients (8.6%) and biallelic mutations in eight patients (2.7%) out of 303 tested. In 18 of 26 (69%) patients, no second mutation could be detected even using MLPA. The spectrum of SLC26A4 mutations in Czech patients is broad without any prevalent mutation. We detected 21 different mutations (four novel). The most frequent mutations were p.Val138Phe and p.Leu445Trp (18% and 8.9% of pathogenic alleles respectively). Among 13 patients with bilateral EVA, six patients (50%) carry biallelic mutations. In EVA ‐negative patients no biallelic mutations were found but 4.9% had monoallelic mutations. SLC26A4 mutations are present mostly in patients with EVA/MD and/or progressive HL and those with affected siblings.     

Prevalence of Deafness‐Associated Connexin‐26 (GJB2) and Connexin‐30 (GJB6) Pathogenic Alleles in a Large Patient Cohort from Eastern Sicily

Mutations in the gene encoding the gap junction protein connexin 26 (GJB2) and connexin 30 (GJB6) have been shown to be a major contributor to prelingual, sensorineural, nonsyndromic deafness. The aim of this study was to characterize and establish the prevalence of GJB2 and GJB6 gene alterations in 196 patients affected by sensorineural, nonsyndromic hearing loss, from Eastern Sicily. We performed sequence analysis of GJB2 and identified sequence variants in 68 out of 196 patients (34.7%); (28 homozygous for c.35delG, 22 compound heterozygous and 11 with only one variant allele). We found 12 different allelic variants, the most prevalent being c.35delG, which was found on 89 chromosomes (65.5%), followed by other alleles with different frequencies (p.E47X, c.‐23+1G>A, p.L90P, p.R184W, p.M34T, c.167delT, p.R127H, p.M163V, p.V153I, p.W24X, and p.T8M). Importantly, for the first time we present the frequency and spectrum of GJB2 mutations in NSHL patients from Eastern Sicily. No alterations were found in the GJB6 gene, confirming that alterations in this gene are uncommon in our geographic area. Note that 65.3% and 23.5% of our patients, respectively were found to be negative or carriers by GJB2 molecular screening. This emphasizes the need to broaden the genetic analysis to other genes involved in hearing loss.     

SNaPshot reveals high mutation and carrier frequencies of 15 common hearing loss mutants in a Chinese newborn cohort

Genetic causes account for more than half of congenital hearing loss cases. The most frequent mutations found in non‐syndromic hearing loss patients occur in GJB2 and SLC26A4. Mitochondrial genome mutations are also prevalent. However, the frequency of common hearing loss mutations in the Chinese population has not yet been well estimated. Here, we implemented the SNaPshot genotyping method to investigate the carrier frequency of 15 commonly reported hearing loss mutations in GJB2, SLC26A4 and the mitochondrial genome based on a cohort of 5800 neonates in China. Up to 15.9% (923/5800) of the newborns carry at least one mutant allele. The top three were GJB2‐c.109G>A, GJB2‐c.235delC, and SLC26A4‐c.919A>G, with notably high carrier frequencies of 1/10, 1/53 and 1/62 respectively, and mt‐7444G>A with 1/141 was the most frequent allele in the mitochondrial genome. In this cohort, 0.48% (28/5800) of neonates were genetically diagnosed with hearing loss, from which seven cases failed an OAE test. This is the first epidemiological study of non‐syndromic hearing loss in Chinese newborns indicating a notably high carrier frequency (1 per 6.3 newborns) among these 15 mutant alleles. Our carrier frequency data also aid in effective risk assessment and genetic counseling for hearing loss patients in the Chinese population.     

Connexin26 gene (<Emphasis Type="Italic">GJB2</Emphasis>): prevalence of mutations in the Chinese population

 The connexin26 gene (GJB2) has been shown to be responsible for DFNB1 and DFNA3 (Autosomal Recessive Hereditary Nonsyndromic Deafness Locus 1 and Autosomal Dominant Hereditary Nonsyndromic Deafness Locus 3). Two hundred ten independently ascertained Chinese probands with nonsyndromic hearing loss (NSHL) were evaluated for mutations in GJB2, including 43 probands from families with more than one sib with NSHL, likely indicating dominant inheritance, and sporadic cases of NSHL, compatible with recessive inheritance. Of the 210 probands, 43 (20%) were homozygous or heterozygous for mutations in GJB2. Four different mutations were identified: 35delG, 109G-A, 235delC, and 299–300delAT. It was confirmed that GJB2 mutations are an important cause of hearing loss in this population. Of these four mutations, 235delC was the most prevalent at 93%; yet the 35delG mutation, which is the most common GJB2 mutation in Caucasian subjects (Europeans and Americans), was found in low frequency in the present study. It appears from our limited data and reports from other East Asians that 235delC is the most prevalent GJB2 mutation in these populations. GJB2 mutations are consistent with ethnic predilections. Received: July 8, 2002 / Accepted: October 4, 2002     

采用SNaPshot技术对苏南地区耳聋患者进行基因突变热点筛查

目的 明确苏南地区非综合征型耳聋患者7个耳聋致病基因突变热点的突变频率,验证中国人群耳聋遗传病因筛查的SNaPshot技术平台的效能.方法 以125例非综合征型耳聋(non-syndromic hearing loss,NSHL)患者为研究对象,应用SNaPshot技术,针对GJB2基因235delC和299-300delAT,SLC26A4基因IVS7-2A＞G和2168 A＞G,线粒体DNA(mtDNA)1555A＞G、7445 A＞G和3243 A＞G共7个突变热点在一个反应管中进行多重PCR后,单碱基荧光延伸标记,再采用ABI 3130遗传分析仪行毛细管电泳进行基因分型,并利用直接测序和聚合酶链反应-限制性片段长度多态(polymerase chain reactionrestriction fragment length polymorphism,PCR-RFLP)方法验证基因分型结果.结果 (1)125例样本中,GJB2基因235delC突变频率为24.0%,299-300delAT突变频率为5.6%;SLC26A4基因IVS7-2A＞G突变频率为15.2%,2168 A＞G突变频率为3.2%;线粒体DNA 1555A＞G突变频率为4.8%,7445 A＞G突变频率为0.8%,未发现线粒体DNA 3243 A＞G位点突变,7个热点综合突变频率为53.6%.(2)SNaPshot结果与直接测序或PCR-RFLP结果完全吻合,检测的特异性和敏感性均为100%.结论 (1)苏南地区耳聋患者7个位点突变频率超过半数;(2)用SNaPshot技术筛查耳聋基因,在一个反应管中同时检测到了7个突变热点,其检测效能高,具有临床应用价值.     

Three novel GJB2 (connexin 26) variants associated with autosomal dominant syndromic and nonsyndromic hearing loss

Connexin 26 (Cx26), encoded by the GJB2 gene, is a key protein involved in the formation of gap junctions in epithelial organs including the inner ear and palmoplantar epidermis. Pathogenic variants in GJB2 are responsible for approximately 50% of inherited sensorineural deafness. The majority of these variants are associated with autosomal recessive inheritance; however, rare reports of dominantly co‐segregating variants have been published. Since we began offering GJB2 testing in 2003, only about 2% of detected GJB2 variants from our laboratory have been classified as dominant. Here we report three novel dominant GJB2 variants (p.Thr55Ala, p.Gln57_Pro58delinsHisSer, and p.Trp44Gly); two associated with syndromic sensorineural hearing loss and one with nonsyndromic hearing loss. In the kindred with the p.Thr55Ala variant, the proband and his father present with only leukonychia as a cutaneous finding of their syndromic hearing loss. This phenotype has been previously documented in conjunction with palmoplantar hyperkeratosis, but isolated leukonychia is a novel finding likely associated with the unique threonine to alanine change at codon 55 (other variants at this codon have been reported in cases of nonsyndromic hearing loss). This report contributes to the short list of GJB2 variants associated with autosomal dominant hearing loss, highlights the variability of skin and nail findings associated with such cases, and illustrates the occurrence of both syndromic and nonsyndromic presentations with changes in the same gene.     

Performance of cochlear implant recipients with GJB2‐related deafness

Congenital profound hearing loss affects 0.05–0.1% of children and has many causes, some of which are associated with cognitive delay. For prelingually‐deafened cochlear implant recipients, the etiology of deafness is usually unknown. Mutations in GJB2 have been established as the most common cause of heritable deafness in the United States. In this report, we identify cochlear implant recipients with GJB2‐related deafness and examine the performance of these individuals. Cochlear implant recipients received a battery of perceptive, cognitive, and reading tests. Neither subjects nor examiners knew the etiology of deafness in these individuals. The implant recipients were then examined for mutations in GJB2 using an allele‐specific polymerase chain reaction assay, single‐strand conformation polymorphism analysis, and direct sequencing. GJB2 mutations were the leading cause of congenital deafness among the cochlear implant recipients screened. Cochlear implant recipients with GJB2‐related deafness read within one standard deviation of hearing controls better than other congenitally deaf cochlear implant recipients and non‐cochlear implant recipients. Individuals with congenital deafness should be offered GJB2 screening. Positive results establish an etiologic diagnosis and provide prognostic, genetic, and therapeutic information. Effective rehabilitation for profoundly deaf individuals with GJB2‐related deafness is possible through cochlear implantation. © 2002 Wiley‐Liss, Inc.     

Hearing impairment in Estonia: An algorithm to investigate genetic causes in pediatric patients

PurposeThe present study was initiated to establish the etiological causes of early onset hearing loss (HL) among Estonian children between 2000–2009.MethodsThe study group consisted of 233 probands who were first tested with an arrayed primer extension assay, which covers 199 mutations in 7 genes (GJB2, GJB6, GJB3, SLC26A4, SLC26A5 genes, and two mitochondrial genes – 12S rRNA, tRNA^Ser(UCN)). From probands whose etiology of HL remained unknown, DNA analysis of congenital cytomegalovirus (CMV) infection and G-banded karyotype and/or chromosomal microarray analysis (CMA) were performed.ResultsIn 110 (47%) cases, the etiology of HL was genetic and in 5 (2%) congenital CMV infection was diagnosed. We found mutations with clinical significance in GJB2 (100 children, 43%) and in 2 mitochondrial genes (2 patients, 1%). A single mutation in SLC26A4 gene was detected in 5 probands (2.2%) and was considered diagnostic. In 4 probands a heterozygous IVS2-2A>G change in the SLC26A5 gene was found. We did not find any instances of homozygosity for this splice variant in the probands. CMA identified in 4 probands chromosomal regions with the loss of one allele. In 2 of them we were able to conclude that the found abnormalities are definitely pathogenic (12q13.3-q14.2 and 17q22-23.2 microdeletion), but the pathogenity of 2 other findings (3p26.2 and 1p33 microdeletion) remained unknown.ConclusionThis practical diagnostic algorithm confirmed the etiology of early onset HL for 115 Estonian patients (49%). This algorithm may be generalized to other populations for clinical application.     

变性高效液相色谱法分析非综合征型耳聋人群SLC26A4基因突变

目的 研究非综合征型耳聋(nonsyndromic hearing loss,NSHL)患者SLC26A4基因的突变情况,为临床上NSHL患者基因诊断提供指导.方法 PCR分别扩增SLC26A4基因的21个外显子及其侧翼序列,所得目的 片段用变性高效液相色谱(denaturing high-performance liquid chromatorgraphy,DHPLC)进行突变筛查,有异常峰形的样本进行DNA测序.结果 在所选30例无血缘关系且GJB2基因检测未发现突变的NSHL患者中,共检测出10种SLC26A4基因变异,其中包括7种已知突变,2种未见报道的新突变(F572L和D87Y),及一种已知多态(Ivs11+47T＞C),其中Ivs7-2A＞G是最常见的突变,约占总突变的40%.结论 SLC26A4基因为仅次于GJB2的导致NSHL的相关基因,在(GJB2基因检测未发现突变的NSHL人群中SLC26A4基因的检出率达到23.3%,其中Ivs7-2A＞G是其最常见的突变.     

Newborn genetic screening for hearing impairment: a population-based longitudinal study

PurposeThe feasibility of genetic screening for deafness-causing mutations in newborns has been reported in several studies. The aim of this study was to investigate the long-term results in those who screened positive for deafness mutations; these results are crucial to determine the cost-effectiveness to justify population-wide genetic screening.MethodsWe performed simultaneous hearing screening and genetic screening targeting four common deafness mutations (p.V37I and c.235delC of GJB2, c.919-2A>G of SLC26A4, and the mitochondrial m.1555A>G) in 5173 newborns at a tertiary hospital between 2009 and 2015. Serial audiometric results up to 6 years old were then analyzed in children with conclusive genotypes.ResultsNewborn genetic screening identified 82 (1.6%) babies with conclusive genotypes, comprising 62 (1.2%) with GJB2 p.V37I/p.V37I, 16 (0.3%) with GJB2 p.V37I/c.235delC, and 4 (0.1%) with m.1555A>G. Of these, 46 (56.1%) passed hearing screening at birth. Long-term follow-up demonstrated progressive hearing loss in children with the GJB2 p.V37I/p.V37I and p.V37I/c.235delC genotypes; this hearing loss deteriorated by approximately 1 decibel hearing level (dBHL) per year.ConclusionsWe delineated the longitudinal auditory features of the highly prevalent GJB2 p.V37I mutation on a general population basis and confirmed the utility of newborn genetic screening in identifying infants with late-onset or progressive hearing impairment undetectable by newborn hearing screening.     

SLC26A4 gene is frequently involved in nonsyndromic hearing impairment with enlarged vestibular aqueduct in Caucasian populations

Sensorineural hearing loss is the most frequent sensory deficit of childhood and is of genetic origin in up to 75% of cases. It has been shown that mutations of the SLC26A4 (PDS) gene were involved in syndromic deafness characterized by congenital sensorineural hearing impairment and goitre (Pendred's syndrome), as well as in congenital isolated deafness (DFNB4). While the prevalence of SLC26A4 mutations in Pendred's syndrome is clearly established, it remains to be studied in large cohorts of patients with nonsyndromic deafness and detailed clinical informations. In this report, 109 patients from 100 unrelated families, aged from 1 to 32 years (median age: 10 years), with nonsyndromic deafness and enlarged vestibular aqueduct, were genotyped for SLC26A4 using DHPLC molecular screening and sequencing. In all, 91 allelic variants were observed in 100 unrelated families, of which 19 have never been reported. The prevalence of SLC26A4 mutations was 40% (40/100), with biallelic mutation in 24% (24/100), while six families were homozygous. All patients included in this series had documented deafness, associated with EVA and without any evidence of syndromic disease. Among patients with SLC26A4 biallelic mutations, deafness was more severe, fluctuated more than in patients with no mutation. In conclusion, the incidence of SLC26A4 mutations is high in patients with isolated deafness and enlarged vestibular aqueduct and could represent up to 4% of nonsyndromic hearing impairment. SLC26A4 could be the second most frequent gene implicated in nonsyndromic deafness after GJB2, in this Caucasian population.     

Update of spectrum c.35delG and c.‐23+1G>A mutations on the GJB2 gene in individuals with autosomal recessive nonsyndromic hearing loss

Hearing loss (HL) is the most common birth defect and the most prevalent sensorineural condition worldwide. It is associated with more than 1,000 mutations in at least 90 genes. Mutations of the gap junction beta‐2 protein (GJB2) gene located in the nonsyndromic hearing loss and deafness (DFNB1) locus (chromosome 13q11‐12) are the main causes of autosomal recessive nonsyndromic hearing loss worldwide, but important differences exist between various populations. In the present article, two common mutations of the GJB2 gene are compared for ethnic‐specific allele frequency, their function, and their contribution to genetic HL in different populations. The results indicated that mutations of the GJB2 gene could have arisen during human migration. Updates on the spectrum of mutations clearly show that frequent mutations in the GJB2 gene are consistent with the founder mutation hypothesis.     

Prevalent connexin 26 gene (GJB2) mutations in Japanese

The gene responsible for DNFB1 and DFNA3, connexin 26 (GJB2), was recently identified and more than 20 disease causing mutations have been reported so far. This paper presents mutation analysis for GJB2 in Japanese non-syndromic hearing loss patients compatible with recessive inheritance. It was confirmed that GJB2 mutations are an important cause of hearing loss in this population, with three mutations, 235delC, Y136X, and R143W, especially frequent. Of these three mutations, 235delC was most prevalent at 73%. Surprisingly, the 35delG mutation, which is the most common GJB2 mutation in white subjects, was not found in the present study. Our data indicated that specific combinations of GJB2 mutation exist in different populations.     

A novel autosomal recessive GJB2‐associated disorder: Ichthyosis follicularis,bilateral severe sensorineural hearing loss,and punctate palmoplantar keratoderma

Ichthyosis follicularis, a distinct cutaneous entity reported in combination with atrichia, and photophobia has been associated with mutations in MBTPS2. We sought the genetic cause of a novel syndrome of ichthyosis follicularis, bilateral severe sensorineural hearing loss and punctate palmoplantar keratoderma in two families. We performed whole exome sequencing on three patients from two families. The pathogenicity and consequences of mutations were studied in the Xenopus oocyte expression system and by molecular modeling analysis. Compound heterozygous mutations in the GJB2 gene were discovered: a pathogenic c.526A>G; p.Asn176Asp, and a common frameshift mutation, c.35delG; p.Gly12Valfs*2. The p.Asn176Asp missense mutation was demonstrated to significantly reduce the cell–cell gap junction channel activity and increase the nonjunctional hemichannel activity in the Xenopus oocyte expression system. Molecular modeling analyses of the mutant Cx26 protein revealed significant changes in the structural characteristics and electrostatic potential of the Cx26, either in hemichannel or gap junction conformation. Thus, association of a new syndrome of an autosomal recessive disorder of ichthyosis follicularis, bilateral severe sensorineural hearing loss and punctate palmoplantar keratoderma with mutations in GJB2, expands the phenotypic spectrum of the GJB2‐associated disorders. The findings attest to the complexity of the clinical consequences of different mutations in GJB2.