Your search keyword '"Connexin 26 genetics"' showing total 183 results

1. Validating the splicing effect of rare variants in the SLC26A4 gene using minigene assay.

Author

Zhao Y, Long Y, Shi T, Ma X, Lian C, Wang H, Xu H, Yu L, and Zhao X

Subjects

Humans, Male, Female, Hearing Loss genetics, Membrane Transport Proteins genetics, Mutation, High-Throughput Nucleotide Sequencing, Vestibular Aqueduct abnormalities, Connexin 26 genetics, Sulfate Transporters genetics, RNA Splicing

Abstract

Background: The SLC26A4 gene is the second most common cause of hereditary hearing loss in human. The aim of this study was to utilize the minigene assay in order to identify pathogenic variants of SLC26A4 associated with enlarged vestibular aqueduct (EVA) and hearing loss (HL) in two patients., Methods: The patients were subjected to multiplex PCR amplification and next-generation sequencing of common deafness genes (including GJB2, SLC26A4, and MT-RNR1), then bioinformatics analysis was performed on the sequencing data to identify candidate pathogenic variants. Minigene experiments were conducted to determine the potential impact of the variants on splicing., Results: Genetic testing revealed that the first patient carried compound heterozygous variants c.[1149 + 1G > A]; [919-2 A > G] in the SLC26A4 gene, while the second patient carried compound heterozygous variants c.[2089 + 3 A > T]; [919-2 A > G] in the same gene. Minigene experiments demonstrated that both c.1149 + 1G > A and c.2089 + 3 A > T affected mRNA splicing. According to the ACMG guidelines and the recommendations of the ClinGen Hearing Loss Expert Panel for ACMG variant interpretation, these variants were classified as "likely pathogenic"., Conclusions: This study identified the molecular etiology of hearing loss in two patients with EVA and elucidated the impact of rare variants on splicing, thus contributing to the mutational spectrum of pathogenic variants in the SLC26A4 gene., (© 2024. The Author(s).)

Published

2024

2. Genetic Basis of Hearing Loss in Mongolian Patients: A Next-Generation Sequencing Study.

Author

Gombojav B, Erdenechuluun J, Makhbal Z, Danshiitsoodol N, Purevdorj E, Jargalmaa M, Batsaikhan T, Lin PH, Lu YS, Lo MY, Tseng HY, Tsai CY, and Wu CC

Subjects

Humans, Mongolia epidemiology, Male, Female, Connexin 26 genetics, Adult, Child, Adolescent, Child, Preschool, Young Adult, Middle Aged, High-Throughput Nucleotide Sequencing, Hearing Loss, Sensorineural genetics, Sulfate Transporters genetics, Mutation

Abstract

Background/objective: The genetic landscape of sensorineural hearing impairment (SNHI) varies across populations. In Mongolia, previous studies have shown a lower prevalence of GJB2 mutations and a higher frequency of variants in other deafness-related genes. This study aimed to investigate the genetic variants associated with idiopathic SNHI in Mongolian patients., Methods: We utilized the next-generation sequencing for investigating the causative mutations in 99 Mongolian patients with SNHI., Results: We identified pathogenic variants in 53 of the 99 SNHI patients (54%), with SLC26A4 being the most frequently mutated gene. The c.919-2A>G variant in SLC26A4 was the most prevalent, accounting for 46.2% of the mutant alleles. In addition, we identified 19 other known and 21 novel mutations in a total of 21 SNHI genes in autosomal recessive or dominant inheritance patterns., Conclusions: Our findings expand the understanding of the genetic landscape of SNHI in Mongolia and highlight the importance of considering population-specific variations in genetic testing and counseling for SNHI.

Published

2024

3. Genetic investigations on singleton school aged children reveal novel variants and new candidate genes for hearing loss.

Author

Khan H, Muzaffar F, Salman M, Bashir R, Seo GH, and Naz S

Subjects

Humans, Male, Child, Female, Adolescent, Cadherin Related Proteins, Cadherins genetics, Membrane Proteins genetics, Connexin 26 genetics, Genetic Predisposition to Disease, Pakistan, Consanguinity, Connexins genetics, Mutation, Missense, Myosins, Hearing Loss genetics, Exome Sequencing, Sulfate Transporters genetics

Abstract

Hearing loss affects around 5% of the global population. Two preliminary studies have described genetic variants in sporadic individuals with hearing loss from Pakistan. Here we extend these studies to determine the spectrum of variants in a cohort of individuals with no previous history of hearing loss. Individuals with hearing loss born to consanguineous couples were identified from special schools. Audiograms were assessed. DNA from participants negative for GJB2 pathogenic variants was subjected to exome sequencing. Data were filtered to include variants with frequencies < 0.01 in the public databases. The effects of the missense variants on respective amino acids were analyzed by using PyMol software. Among the 44 participants, hearing loss was moderate for two individuals; 14 exhibited moderately-severe hearing loss while 25 had a severe degree of hearing loss. Hearing loss was reported to have been progressive in four participants and was currently profound in three participants. Variants were unambiguously identified in 17 genes, of which the majority affected SLC26A4. CDH23, MYO15A and OTOF were other significant contributors. Deleterious variants detected in two genes suggest new associations for hearing loss. Molecular characterization of hearing loss in our cohort revealed high genetic heterogeneity with a 75% diagnostic rate., (© 2024. The Author(s).)

Published

2024

4. Targeted Next-Generation Sequencing Analysis Reveals a Novel Genetic Variant in MYO6 Gene in an Indian Family with Postlingual Nonsyndromic Hearing Loss.

Author

Raghuvanshi R, Panda KC, Ray CS, and Ramchander PV

Subjects

Humans, Male, India, Female, Adult, Middle Aged, Mutation, Genetic Variation genetics, Connexin 26 genetics, High-Throughput Nucleotide Sequencing methods, Myosin Heavy Chains genetics, Pedigree, Deafness genetics

Abstract

Background: Hereditary nonsyndromic hearing loss (NSHL) is an extremely heterogeneous disorder, both genetically and clinically. Myosin VI ( MYO6 ) pathogenic variations have been reported to cause both prelingual and postlingual forms of NSHL. Postlingual autosomal dominant cases are often overlooked for genetic etiology in clinical setups. In this study, we used next-generation sequencing (NGS)-based targeted deafness gene panel assay to identify the cause of postlingual hearing loss in an Indian family. Methods: The proband and his father from a multigenerational Indian family affected by postlingual hearing loss were examined via targeted capture of 129 deafness genes, after excluding gap junction protein beta 2 ( GJB2 ) pathogenic variants by Sanger sequencing. NGS data analysis and co-segregation of the candidate variants in the family were carried out. The variant effect was predicted by in silico tools and interpreted following American College of Medical Genetics and Genomics-Association for Molecular Pathology guidelines. Results: A novel heterozygous transversion c.3225T>G, p.(Tyr1075*) in MYO6 gene was identified as the disease-causing variant in this family. This stop-gained variant is predicted to form a truncated myosin VI protein, which is devoid of crucial cargo-binding domain. PCR-RFLP screening in 200 NSHL cases and 200 normal-hearing controls showed the absence of this variant indicating its de novo nature in the population. Furthermore, we reviewed MYO6 variants reported from various populations to date. Conclusions: To the best of our knowledge, this is the first family with MYO6 -associated hearing loss from an Indian population. The study also highlights the importance of deafness gene panels in molecular diagnosis of GJB2 -negative pedigrees, contributing to genetic counseling in the affected families.

Published

2024

5. Mosaic GJB2 mutations in widespread porokeratotic adnexal ostial nevus: Report of two patients.

Author

Zhao A, Wang Y, Jia N, Lu F, Pan C, Wu F, Cao Q, Li X, Wang X, Wang S, He W, Zeng Q, Huang H, Han J, and Li M

Subjects

Humans, Female, Male, Connexins genetics, Scalp pathology, Nevus genetics, Nevus pathology, Nevus diagnosis, Skin pathology, Phenotype, Adult, Connexin 26 genetics, Porokeratosis genetics, Porokeratosis pathology, Porokeratosis diagnosis, Mutation, Mosaicism, Skin Neoplasms genetics, Skin Neoplasms pathology, Skin Neoplasms diagnosis

Abstract

Porokeratotic adnexal ostial nevus (PAON) is a rare adnexal hamartoma characterized by keratotic papules following Blaschko's lines, typically located on the unilateral distal extremities. Cutaneous somatic GJB2 mutations have been linked to the pathogenesis of PAON. However, the genetic mechanism underlying bilateral or extended forms, which are less documented, remains unknown. In this study, we presented two cases of PAON with widespread cutaneous lesions and scalp involvement, and demonstrated the presence of GJB2 mosaic mutations in both patients. We further investigated the mosaic frequency in different tissues to gain insights into the mutation events contributing to the phenotype of widespread PAON. Our findings suggest that early postzygotic mutation causing mosaic GJB2 mutations may contribute to the widespread phenotype of PAON, thereby enriching the disease spectrum and mutation profile of PAON., (© 2024 Japanese Dermatological Association.)

Published

2024

6. Variants in Genes Associated with Hearing Loss in Children: Prevalence in a Large Canadian Cohort.

Author

Wener ER, McLennan JD, Papsin BC, Cushing SL, Stavropoulos DJ, Mendoza-Londono R, Quercia N, and Gordon KA

Subjects

Humans, Canada epidemiology, Child, Male, Female, Child, Preschool, Prevalence, Infant, Adolescent, Cohort Studies, Genetic Variation genetics, Connexin 26 genetics, Genetic Predisposition to Disease, High-Throughput Nucleotide Sequencing, Hearing Loss genetics, Hearing Loss epidemiology, Genetic Testing

Abstract

Objective: The objective of this study was to assess the prevalence of genetic variants associated with hearing loss in a large cohort of children in Canada using high throughput next generation sequencing (NGS)., Methods: A total of 485 children with hearing loss underwent NGS testing with an 80 gene panel of syndromic and non-syndromic variants known to be associated with hearing loss. Genetic variants were classified as pathogenic, likely pathogenic, likely benign, benign, or variants of uncertain significance (VUS), according to the American College of Medical Genetics and Genomics guidelines., Results: Across the 80 genes tested, 923 variants, predominantly in 28 genes, were identified in 324 children. Pathogenic variants occurred in 19/80 (23.8%) of the hearing loss related genes tested and confirmed the etiology of hearing loss in 73/485 (15.1%) of children. GJB2 was the most prevalent gene, affecting 28/73 (38.4%) children with confirmed genetic hearing loss in our cohort. Most identified variants (748/923, 81.0%, in 76/80 genes) were of uncertain significance., Conclusion: Genetic testing using NGS identified the etiology in approximately 15% of childhood hearing loss in a Canadian cohort which is lower than what is typically reported. GJB2 was the most common genetic cause of hearing loss. VUS are commonly identified, presenting clinical challenges for counseling., Level of Evidence: 4 Laryngoscope, 134:3832-3838, 2024., (© 2024 The Authors. The Laryngoscope published by Wiley Periodicals LLC on behalf of The American Laryngological, Rhinological and Otological Society, Inc.)

Published

2024

7. A capture-based method of prenatal cell-free DNA screening for autosomal recessive non-syndromic hearing loss.

Author

Mu Q, Bai L, Xu B, Du H, Jiang Z, Huang S, Gao B, Wu Q, Zhao H, Dai P, and Jiang Y

Subjects

Humans, Female, Pregnancy, Adult, Genes, Recessive, Noninvasive Prenatal Testing methods, Polymorphism, Single Nucleotide, Genotype, Connexin 26 genetics, Prenatal Diagnosis methods, Male, Hearing Loss diagnosis, Hearing Loss genetics, Cell-Free Nucleic Acids blood, Cell-Free Nucleic Acids analysis, Cell-Free Nucleic Acids genetics

Abstract

Objective: This study aimed to develop and validate a prenatal cell-free DNA (cfDNA) screening method that uses capture-based enrichment to genotype fetal autosomal recessive disorders. This method was applied in pregnancies at high risk of autosomal recessive non-syndromic hearing loss (ARNSHL) to assess its accuracy and effectiveness., Methods: This assay measured the allele counts in both white blood cell DNA and cfDNA from the blood samples of pregnant women using a capture-based next-generation sequencing method. It then applied a binomial model to infer the fetal genotypes with the maximum likelihood. Ninety-four pregnant couples that were carriers of variants of ARNSHL in GJB2 or SLC26A4 were enrolled. The fetal genotypes deduced using this screening method were compared with the results of genetic diagnosis using amniocentesis., Results: Of the 94 couples, 65 carried more than one variant, resulting in 170 single-nucleotide polymorphism (SNP) loci to be inferred in the fetuses. Of the 170 fetal SNP genotypes, 150 (88.2%) had high confidence calls and 139 (92.7%) of these matched the genotypes obtained by amniocentesis result. Out of the remaining 20 (11.8%) cases with low-confidence calls, only 14 (70.0%) were concordant with genetic diagnosis using amniocentesis. The concordance rate was 100% for sites where the maternal genotype was wild-type homozygous. The discordance was site-biased, with each locus showing a consistent direction of discordance. Genetic diagnosis identified a total of 19 wild-type homozygotes, 46 heterozygotes, 19 compound heterozygotes, and 10 pathogenic homozygotes. This screening method correctly genotyped 81.9% (77/94) of fetuses and demonstrated a sensitivity of 89.7% and a specificity of 89.2% for correctly identifying ARNSHL., Conclusion: This capture-based method of prenatal screening by cfDNA demonstrated strong potential for fetal genotyping of autosomal recessive disorders., (© 2024 The Authors. Prenatal Diagnosis published by John Wiley & Sons Ltd.)

Published

2024

8. An Ala/Glu difference in E1 of Cx26 and Cx30 contributes to their differential anionic permeabilities.

Author

Kraujaliene L, Kraujalis T, Snipas M, and Verselis VK

Subjects

Humans, HeLa Cells, Connexins metabolism, Connexins genetics, Anions metabolism, Permeability, Glutamic Acid metabolism, Alanine metabolism, Alanine genetics, Isoquinolines metabolism, Cell Membrane Permeability physiology, Connexin 26 metabolism, Connexin 26 genetics, Connexin 30 metabolism, Connexin 30 genetics, Gap Junctions metabolism

Abstract

Two closely related connexins, Cx26 and Cx30, share widespread expression in the cochlear cellular networks. Gap junction channels formed by these connexins have been shown to have different permeability profiles, with Cx30 showing a strongly reduced preference for anionic tracers. The pore-forming segment of the first extracellular loop, E1, identified by computational studies of the Cx26 crystal structure to form a parahelix and a narrowed region of the pore, differs at a single residue at position 49. Cx26 contains an Ala and Cx30, a charged Glu at this position, and cysteine scanning in hemichannels identified this position to be pore-lining. To assess whether the Ala/Glu difference affects permeability, we modeled and quantified Lucifer Yellow transfer between HeLa cell pairs expressing WT Cx26 and Cx30 and variants that reciprocally substituted Glu and Ala at position 49. Cx26(A49E) and Cx30(E49A) substitutions essentially reversed the Lucifer Yellow permeability profile when accounting for junctional conductance. Moreover, by using a calcein efflux assay in single cells, we observed a similar reduced anionic preference in undocked Cx30 hemichannels and a reversal with reciprocal Ala/Glu substitutions. Thus, our data indicate that Cx26 and Cx30 gap junction channels and undocked hemichannels retain similar permeability characteristics and that a single residue difference in their E1 domains can largely account for their differential permeabilities to anionic tracers. The higher anionic permeability of Cx26 compared with Cx30 suggests that these connexins may serve distinct signaling functions in the cochlea, perhaps reflected in the vastly higher prevalence of Cx26 mutations in human deafness., (© 2024 Kraujaliene et al.)

Published

2024

9. A pore locus in the E1 domain differentially regulates Cx26 and Cx30 hemichannel function.

Author

Sanchez HA, Kraujaliene L, and Verselis VK

Subjects

Animals, Humans, Protein Domains, Gap Junctions metabolism, Mice, HEK293 Cells, Cochlea metabolism, Cochlea physiology, Connexin 26 metabolism, Connexin 26 genetics, Connexin 30 metabolism, Connexin 30 genetics, Connexins metabolism, Connexins genetics

Abstract

Connexins (Cxs) function as gap junction (GJ) channels and hemichannels that mediate intercellular and transmembrane signaling, respectively. Here, we investigated the proximal segment of the first extracellular loop, E1, of two closely related Cxs, Cx26 and Cx30, that share widespread expression in the cochlea. Computational studies of Cx26 proposed that this segment of E1 contains a parahelix and functions in gating. The sequence of the parahelix is identical between Cx26 and Cx30 except for an Ala/Glu difference at position 49. We show through cysteine-scanning and mutational analyses that position 49 is pore-lining and interacts with the adjacent Asp50 residue to impact hemichannel functionality. When both positions 49 and 50 are charged, as occurs naturally in Cx30, the hemichannel function is dampened. Co-expression of Cx30 with Cx26(D50N), the most common mutation associated with keratitis-ichthyosis-deafness syndrome, results in robust hemichannel currents indicating that position 49-50 interactions are relevant in heteromerically assembled hemichannels. Cysteine substitution at position 49 in either Cx26 or Cx30 results in tonic inhibition of hemichannels, both through disulfide formation and high-affinity metal coordination, suggestive of a flexible region of the pore that can narrow substantially. These effects are absent in GJ channels, which exhibit wild-type functionality. Examination of postnatal cochlear explants suggests that Cx30 expression is associated with reduced propagation of Ca2+ waves. Overall, these data identify a pore locus in E1 of Cx26 and Cx30 that impacts hemichannel functionality and provide new considerations for understanding the roles of these connexins in cochlear function., (© 2024 Sanchez et al.)

Published

2024

10. Expanded targeted preconception screening panel in Israel: findings and insights.

Author

Reches A, Ofen Glassner V, Goldstein N, Yeshaya J, Delmar G, Portugali E, Hallas T, Weinstein A, Kurolap A, Berkenstadt M, Mantsour T, Abu-Gutstein L, Ries-Levavi L, Reznik-Wolf H, Behar DM, Yaron Y, Pras E, and Baris Feldman H

Subjects

Humans, Israel epidemiology, Female, Male, Connexins genetics, Genetic Carrier Screening methods, Mutation, Preconception Care methods, Gene Frequency, Genetic Counseling, Heterozygote, Genes, Recessive, Adult, Genetic Testing methods, Connexin 26 genetics

Abstract

Background: We aimed to analyse the efficacy and added value of a targeted Israeli expanded carrier screening panel (IL-ECSP), beyond the first-tier test covered by the Israeli Ministry of Health (IMOH) and the second-tier covered by the Health Maintenance Organisations (HMOs)., Methods: A curated variant-based IL-ECSP, tailored to the uniquely diverse Israeli population, was offered at two tertiary hospitals and a major genetics laboratory. The panel includes 1487 variants in 357 autosomal recessive and X-linked genes., Results: We analysed 10 115 Israeli samples during an 18-month period. Of these, 6036 (59.7%) were tested as couples and 4079 (40.3%) were singles. Carriers were most frequently identified with mutations in the following genes: GJB2/GJB6 (1:22 allele frequency), CFTR (1:28), GBA (1:34), TYR (1:39), PAH (1:50), SMN1 (1:52) and HEXA (1:56). Of 3018 couples tested, 753 (25%) had no findings, in 1464 (48.5%) only one partner was a carrier, and in 733 (24.3%) both were carriers of different diseases. We identified 79 (2.6%) at-risk couples, where both partners are carriers of the same autosomal recessive condition, or the female carries an X-linked disease. Importantly, 48.1% of these would not have been detected by ethnically-based screening tests currently provided by the IMOH and HMOs, for example, variants in GBA, TYR, PAH and GJB2/GJB6 ., Conclusion: This is the largest cohort of targeted ECSP testing, tailored to the diverse Israeli population. The IL-ECSP expands the identification of couples at risk and empowers their reproductive choices. We recommend endorsing an expanded targeted panel to the National Genetic Carrier Screening programme., Competing Interests: Competing interests: DMB was involved in the design of the CarrierScan array and is entitled to certain royalties., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

11. Unveiling a novel GJB2 dominant K22T mutation in a Chinese family with hearing loss.

Author

Ji H, Shu Y, and Li H

Subjects

Adult, Female, Humans, Male, China, East Asian People genetics, Genes, Dominant, Heterozygote, Mutation, Pedigree, Connexin 26 genetics, Hearing Loss genetics

Abstract

Hearing loss constitutes one of the most prevalent conditions within the field of otolaryngology. Recent investigations have revealed that mutations in deafness-associated genes, including point mutations and variations in DNA sequences, can cause hearing impairments. With the ethology of deafness remaining unclear for a substantial portion of the affected population, further screenings for pathogenic mutations are imperative to unveil the underlying mechanisms. On this study, by using next-generation sequencing, we examine 129 commonly implicated deafness-related genes in a Chinese family with hearing loss, revealing a novel heterozygous dominant mutation in the GJB2 gene (GJB2: c.65T>G: p. Lys22Thr). This mutation consistently occurs in affected family members but is not detected in unaffected individuals, strongly suggesting its causative role in hearing loss. Structural analysis indicates potential disruption to the Cx26 gap junction channel's hydrogen bond and electrostatic interactions, aligning with predictions from the PolyPhen and SIFT algorithms. In conclusion, our study provides conclusive evidence that the identified heterozygous GJB2 mutation (GJB2: c.65T>G: p. Lys22Thr), specifically the K22T alteration, is the primary determinant of the family's deafness. This contribution enhances our understanding of the interplay between common deafness-associated genes and hearing loss, offering valuable insights for diagnostic guidance and the formulation of therapeutic strategies for this condition.

Published

2024

12. Spectrum of genetic variants in 306 patients with non-syndromic hearing loss from Croatia.

Author

Sansović I, Meašić AM, Bobinec A, Morožin Pohovski L, Odak L, Vulin K, Lozić B, Kero M, Huljev Frković S, and Pušeljić S

Subjects

Humans, Croatia, Child, Female, Male, Child, Preschool, Adolescent, Infant, Genetic Testing, Genetic Variation genetics, Connexins genetics, Mutation, Exome Sequencing, Hearing Loss genetics, Alleles, Young Adult, Deafness genetics, Connexin 26 genetics

Abstract

Aim: To determine the spectrum and frequency of disease-causing variants in patients with non-syndromic hearing loss (NSHL) and to investigate the diagnostic yield of the applied genetic methods., Methods: The study enrolled 306 unrelated patients with childhood-onset, mild-to-profound NSHL referred to Children's Hospital Zagreb for genetic testing between March 2006 and October 2023. The GJB2 variants were analyzed with the multiplex ligation-dependent probe amplification method and Sanger sequencing of the coding region of the GJB2 gene. In 21 patients negative for GJB2 biallelic variants, clinical exome sequencing (CES) was performed., Results: Among 234 disease-associated GJB2 alleles detected, 19 were clinically relevant, of which 18 were reported as pathogenic/likely pathogenic. The c.35delG variant accounted for 73.5% of the mutated alleles. More than half of the patients with biallelic GJB2 variants (64/110, 58.2%) were 35delG homozygotes. Seventeen non-GJB2 variants were found in 10 genes (TECTA, NOG, SLC26A4, PCDH15, TMPRSS3, USH2A, GATA3, MYO15A, SOX10, COL2A1) in 11 participants, and 5 variants (in TECTA, NOG, PCDH15, and SOX10) were novel (29.4%)., Conclusion: We were able to elucidate the genetic cause of hearing loss in 121 patients, with an overall diagnostic rate of 39.5%. The c.35delG was the most common variant. CES allowed us to diagnose almost half of the patients with HL; to distinguish NSHL from the syndromic form of HL in cases where the phenotype was unclear or where symptoms were absent from an early age; and to discover novel variants.

Published

2024

13. Genetic analysis of 106 sporadic cases with hearing loss in the UAE population.

Author

Tlili A, Mahfood M, Al Mutery A, and Chouchen J

Subjects

Humans, Male, Female, Adult, United Arab Emirates epidemiology, Child, Mutation genetics, Adolescent, High-Throughput Nucleotide Sequencing, Genetic Testing, Middle Aged, Young Adult, Child, Preschool, Connexins genetics, Genetic Predisposition to Disease, Heterozygote, Homozygote, Hearing Loss genetics, Hearing Loss epidemiology, Connexin 26 genetics, Exome Sequencing

Abstract

Background: Hereditary hearing loss is a rare hereditary condition that has a significant presence in consanguineous populations. Despite its prevalence, hearing loss is marked by substantial genetic diversity, which poses challenges for diagnosis and screening, particularly in cases with no clear family history or when the impact of the genetic variant requires functional analysis, such as in the case of missense mutations and UTR variants. The advent of next-generation sequencing (NGS) has transformed the identification of genes and variants linked to various conditions, including hearing loss. However, there remains a high proportion of undiagnosed patients, attributable to various factors, including limitations in sequencing coverage and gaps in our knowledge of the entire genome, among other factors. In this study, our objective was to comprehensively identify the spectrum of genes and variants associated with hearing loss in a cohort of 106 affected individuals from the UAE., Results: In this study, we investigated 106 sporadic cases of hearing impairment and performed genetic analyses to identify causative mutations. Screening of the GJB2 gene in these cases revealed its involvement in 24 affected individuals, with specific mutations identified. For individuals without GJB2 mutations, whole exome sequencing (WES) was conducted. WES revealed 33 genetic variants, including 6 homozygous and 27 heterozygous DNA changes, two of which were previously implicated in hearing loss, while 25 variants were novel. We also observed multiple potential pathogenic heterozygous variants across different genes in some cases. Notably, a significant proportion of cases remained without potential pathogenic variants., Conclusions: Our findings confirm the complex genetic landscape of hearing loss and the limitations of WES in achieving a 100% diagnostic rate, especially in conditions characterized by genetic heterogeneity. These results contribute to our understanding of the genetic basis of hearing loss and emphasize the need for further research and comprehensive genetic analyses to elucidate the underlying causes of this condition., (© 2024. The Author(s).)

Published

2024

14. Structures of wild-type and a constitutively closed mutant of connexin26 shed light on channel regulation by CO 2 .

Author

Brotherton DH, Nijjar S, Savva CG, Dale N, and Cameron AD

Subjects

Humans, Connexins metabolism, Connexins genetics, Connexins chemistry, Gap Junctions metabolism, Mutation, Carbon Dioxide metabolism, Connexin 26 metabolism, Connexin 26 genetics, Cryoelectron Microscopy, Protein Conformation

Abstract

Connexins allow intercellular communication by forming gap junction channels (GJCs) between juxtaposed cells. Connexin26 (Cx26) can be regulated directly by CO 2 . This is proposed to be mediated through carbamylation of K125. We show that mutating K125 to glutamate, mimicking the negative charge of carbamylation, causes Cx26 GJCs to be constitutively closed. Through cryo-EM we observe that the K125E mutation pushes a conformational equilibrium towards the channel having a constricted pore entrance, similar to effects seen on raising the partial pressure of CO 2 . In previous structures of connexins, the cytoplasmic loop, important in regulation and where K125 is located, is disordered. Through further cryo-EM studies we trap distinct states of Cx26 and observe density for the cytoplasmic loop. The interplay between the position of this loop, the conformations of the transmembrane helices and the position of the N-terminal helix, which controls the aperture to the pore, provides a mechanism for regulation., Competing Interests: DB, SN, CS, ND, AC No competing interests declared, (© 2024, Brotherton et al.)

Published

2024

15. Machine learning-based longitudinal prediction for GJB2-related sensorineural hearing loss.

Author

Chen PY, Yang TW, Tseng YS, Tsai CY, Yeh CS, Lee YH, Lin PH, Lin TC, Wu YJ, Yang TH, Chiang YT, Hsu JS, Hsu CJ, Chen PL, Chou CF, and Wu CC

Subjects

Humans, Female, Male, Adult, Child, Adolescent, Middle Aged, Child, Preschool, Connexin 26 genetics, Hearing Loss, Sensorineural genetics, Hearing Loss, Sensorineural physiopathology, Machine Learning

Abstract

Background: Recessive GJB2 variants, the most common genetic cause of hearing loss, may contribute to progressive sensorineural hearing loss (SNHL). The aim of this study is to build a realistic predictive model for GJB2-related SNHL using machine learning to enable personalized medical planning for timely intervention., Method: Patients with SNHL with confirmed biallelic GJB2 variants in a nationwide cohort between 2005 and 2022 were included. Different data preprocessing protocols and computational algorithms were combined to construct a prediction model. We randomly divided the dataset into training, validation, and test sets at a ratio of 72:8:20, and repeated this process ten times to obtain an average result. The performance of the models was evaluated using the mean absolute error (MAE), which refers to the discrepancy between the predicted and actual hearing thresholds., Results: We enrolled 449 patients with 2184 audiograms available for deep learning analysis. SNHL progression was identified in all models and was independent of age, sex, and genotype. The average hearing progression rate was 0.61 dB HL per year. The best MAE for linear regression, multilayer perceptron, long short-term memory, and attention model were 4.42, 4.38, 4.34, and 4.76 dB HL, respectively. The long short-term memory model performed best with an average MAE of 4.34 dB HL and acceptable accuracy for up to 4 years., Conclusions: We have developed a prognostic model that uses machine learning to approximate realistic hearing progression in GJB2-related SNHL, allowing for the design of individualized medical plans, such as recommending the optimal follow-up interval for this population., Competing Interests: Declaration of competing interest The below authors declare the following financial interests/personal relationships which may be considered as potential competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

16. Identification of novel and known genetic variants associated with hereditary hearing loss in iranian families using whole exome sequencing.

Author

Rezaie N, Mansour Samaei N, and Oladnabi M

Subjects

Humans, Iran, Male, Female, Genetic Predisposition to Disease, Adult, High-Throughput Nucleotide Sequencing methods, Sulfate Transporters genetics, Connexins genetics, Microphthalmia-Associated Transcription Factor genetics, Child, Genetic Variation genetics, Extracellular Matrix Proteins genetics, Exome Sequencing methods, Hearing Loss genetics, Pedigree, Mutation genetics, Connexin 26 genetics

Abstract

Background: Hearing loss (HL) is a common sensory impairment worldwide, with genetic and environmental factors contributing to its occurrence. Next Generation Sequencing (NGS) plays a crucial role in identifying the genetic factors involved in this heterogeneous disorder., Methods and Results: In this study, a total of 9 unrelated Iranian families, each having at least one affected individual who tested negative for mutations in GJB2, underwent screening using whole exome sequencing (WES). The pathogenicity and novelty of the identified variant was checked using various databases. Co-segregation study was also performed to confirm the presence of the candidate variants in parents. Plus, The pathogenicity of the detected variant was assessed through in silico analysis using a number of mutation prediction software tools. Among the 9 investigated families, hearing loss-causing genes were identified in 6 families. the mutations were observed in USH2A, CLRN1, BSND, SLC26A4, and MITF, with two of the identified mutations being novel., Conclusion: Discovering additional variants and broadening the range of mutations associated with hearing impairment has the potential to enhance the diagnostic effectiveness of molecular testing in patient screening, and can also lead to improved counseling aimed at reducing the risk of affected offspring for high-risk couples., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

17. Unusual phenotype in 35delG mutation: a case report.

Author

Yeral C, Seneldir L, Karakoc AH, Sap A, and Yilmaz O

Subjects

Humans, Female, Adolescent, Mutation, Hearing Loss, Sensorineural genetics, Phenotype, Connexin 26 genetics, Connexins genetics

Abstract

Background: Mutations in the GJB2 gene, which encodes the protein connexin 26 and is involved in inner ear homeostasis, are identified in approximately 50% of patients with autosomal recessive nonsyndromic hearing loss, making it one of the primary causes of prelingual nonsyndromic hearing loss in various populations. The 35delG mutation, one of the most common mutations of the GJB2 gene, usually causes prelingual, bilateral mild to profound, nonprogressive sensorineural hearing loss., Case Presentation: We present an unusual case of an 18-year-old Turkish female with heterozygous 35delG mutation and postlingual, profound-sloping, progressive and fluctuating unilateral sensorineural hearing loss. The phenotype is different from the usual findings., Conclusions: The 35delG mutation causing hearing loss may not always be reflected in the phenotype as expected and therefore may have different audiologic manifestations., (© 2024. The Author(s).)

Published

2024

18. [Analysis of the results for genetic disease screening among 1 000 newborns from Huzhou].

Author

Shen G, Zou L, Li W, Tang K, Zhang Y, Ding Z, and Shen X

Subjects

Humans, Infant, Newborn, Female, Male, China, High-Throughput Nucleotide Sequencing, Connexins genetics, Neonatal Screening methods, Genetic Diseases, Inborn genetics, Genetic Diseases, Inborn diagnosis, Glucuronosyltransferase genetics, Mutation, Connexin 26 genetics, Genetic Testing methods, Filaggrin Proteins

Abstract

Objective: To analyze the types and distribution of pathogenic variants for neonatal genetic diseases in Huzhou, Zhejiang Province., Methods: One thousand neonates (48 ~ 42 h after birth) born to Huzhou region were selected as the study subjects. Dry blood spot samples were collected from the newborns, and targeted capture high-throughput sequencing was carried out for pathogenic genes underlying 542 inherited diseases. Candidate variants were verified by Sanger sequencing., Results: Among the 1 000 newborns, the male to female ratio was 1.02 : 1.00. No pathogenic variants were detected in 253 cases, whilst 747 cases were found to carry at least one pathogenic variant, which yielded a carrier rate of 74.7%. The most frequently involved pathogenic gene was FLG, followed by GJB2, UGT1A1, USH2A and DUOX2. The variants were classified as homozygous, compound heterozygous, and hemizygous variants. Based on the guidelines from the American College of Medical Genetics and Genomics (ACMG), 213 neonates were verified to have carried pathogenic and/or likely pathogenic variants, with a positive rate of 21.3%. The most commonly involved genes had included UGT1A1, FLG, GJB2, MEFV and G6PD., Conclusion: Newborn screening based on high-throughput sequencing technology can expand the scope of screening and improve the positive predictive value. Genetic counseling based on the results can improve the patients' medical care and reduce neonatal mortality and childhood morbidity, while provide assistance to family members' health management and reproductive decisions.

Published

2024

19. Structural basis for pathogenic variants of GJB2 and hearing levels of patients with hearing loss.

Author

Namba K, Mutai H, Matsunaga T, and Kaneko H

Subjects

Humans, Female, Male, Child, Models, Molecular, Child, Preschool, Mutation, Missense, Amino Acid Substitution, Hydrogen Bonding, Crystallography, X-Ray, Adolescent, Adult, Connexin 26 genetics, Connexins genetics, Connexins chemistry, Hearing Loss genetics

Abstract

Objectives: The crystal structure of the six protomers of gap junction protein beta 2 (GJB2) enables prediction of the effect(s) of an amino acid substitution, thereby facilitating investigation of molecular pathogenesis of missense variants of GJB2. This study mainly focused on R143W variant that causes hearing loss, and investigated the relationship between amino acid substitution and 3-D structural changes in GJB2., Methods: Patients with nonsyndromic hearing loss who appeared to have two GJB2 pathogenic variants, including the R143W variant, were investigated. Because the X-ray crystal structure of the six protomers of the GJB2 protein is known, R143W and structurally related variants of GJB2 were modeled using this crystal structure as a template. The wild-type crystal structure and the variant computer-aided model were observed and the differences in molecular interactions within the two were analyzed., Results: The predicted structure demonstrated that the hydrogen bond between R143 and N206 was important for the stability of the protomer structure. From this prediction, R143W related N206S and N206T variants showed loss of the hydrogen bond., Conclusion: Investigation of the genotypes and clinical data in patients carrying the R143W variant on an allele indicated that severity of hearing loss depends largely on the levels of dysfunction of the pathogenic variant on the allele, whereas a patient with the homozygous R143W variant demonstrated profound hearing loss. We concluded that these hearing impairments may be due to destabilization of the protomer structure of GJB2 caused by the R143W variant., (© 2024. The Author(s).)

Published

2024

20. Comparison of vestibular function in hereditary hearing loss patients with GJB2, CDH23, and SLC26A4 variants.

Author

Tsukada K, Nishio SY, Takumi Y, and Usami SI

Subjects

Humans, Female, Male, Adult, Adolescent, Middle Aged, Child, Young Adult, Vestibular Evoked Myogenic Potentials, Membrane Transport Proteins genetics, Hearing Loss, Sensorineural genetics, Hearing Loss, Sensorineural physiopathology, Vestibular Function Tests, Child, Preschool, Vestibule, Labyrinth physiopathology, Connexins genetics, Cadherins genetics, Sulfate Transporters genetics, Connexin 26 genetics, Cadherin Related Proteins

Abstract

To investigate the association between hereditary hearing loss and vestibular function, we compared vestibular function and symptoms among patients with GJB2, SLC26A4, and CDH23 variants. Thirty-nine patients with sensory neural hearing loss (11 males and 28 females) with biallelic pathogenic variants in either GJB2, SLC26A4, or CDH23 were included in this study (13 GJB2, 15 SLC26A4, and 11 CDH23). The patients were examined using caloric testing and cervical and ocular vestibular-evoked myogenic potentials (cVEMP and oVEMP). We also compared vestibular function and symptoms between patients with these gene variants and 78 normal-hearing ears without vestibular symptoms as controls. The frequency of semicircular canal hypofunction in caloric testing was higher in patients with SLC26A4 variants (47%) than in those with GJB2 (0%) and CDH23 variants (27%). According to the cVEMP results, 69% of patients with GJB2 variants had saccular hypofunction, a significantly higher proportion than in those carrying other variants (SLC26A4, 20%; CDH23, 18%). In oVEMP, which reflects utricular function, no difference was observed in the frequency of hypofunction among the three genes (GJB2, 15%; SLC26A4, 40%; and CDH23, 36%). Hence, discernable trends indicate vestibular dysfunction associated with each gene., (© 2024. The Author(s).)

Published

2024

21. The Segregation of p.Arg68Ter- CLDN14 Mutation in a Syrian Deaf Family, Phenotypic Variations, and Comparative Analysis with the GJB2 Gene.

Author

Tlili A, Mutery AA, and Chouchen J

Subjects

Adult, Female, Humans, Male, Codon, Nonsense genetics, Connexins genetics, Exome Sequencing, Mutation, Phenotype, Syria, Claudins genetics, Connexin 26 genetics, Deafness genetics, Pedigree

Abstract

Hearing impairment, a rare inherited condition, is notably prevalent in populations with high rates of consanguinity. The most common form observed globally is autosomal recessive non-syndromic hearing loss. Despite its prevalence, this genetic disorder is characterized by a substantial genetic diversity, making diagnosis and screening challenging. The emergence of advanced next-generation sequencing (NGS) technologies has significantly advanced the discovery of genes and variants linked to various conditions, such as hearing loss. In this study, our objective was to identify the specific variant causing hearing loss in a family from Syria using clinical exome sequencing. The proband in the family exhibited profound deafness as shown by pure-tone audiometry results. The analysis of the different variants obtained by NGS revealed the presence of a nonsense mutation within the CLDN14 gene. Through Sanger sequencing, we verified that this variant segregates with the disease and was not present in the control population. Moreover, we conducted a comprehensive review of all reported deafness-related CLDN14 mutations and their associated phenotypes. Furthermore, we endeavored to carry out a comparative analysis between the CLDN14 and GJB2 genes, with the objective of identifying potential factors that could explain the notable discrepancy in mutation frequency between these two genes.

Published

2024

22. A murine model for the del(GJB6-D13S1830) deletion recapitulating the phenotype of human DFNB1 hearing impairment: generation and functional and histopathological study.

Author

Domínguez-Ruiz M, Murillo-Cuesta S, Contreras J, Cantero M, Garrido G, Martín-Bernardo B, Gómez-Rosas E, Fernández A, Del Castillo FJ, Montoliu L, Varela-Nieto I, and Del Castillo I

Subjects

Animals, Mice, Connexin 26 genetics, Disease Models, Animal, Mutation, Phenotype, Connexin 30 genetics, Hearing Loss genetics

Abstract

Inherited hearing impairment is a remarkably heterogeneous monogenic condition, involving hundreds of genes, most of them with very small (< 1%) epidemiological contributions. The exception is GJB2, the gene encoding connexin-26 and underlying DFNB1, which is the most frequent type of autosomal recessive non-syndromic hearing impairment (ARNSHI) in most populations (up to 40% of ARNSHI cases). DFNB1 is caused by different types of pathogenic variants in GJB2, but also by large deletions that keep the gene intact but remove an upstream regulatory element that is essential for its expression. Such large deletions, found in most populations, behave as complete loss-of-function variants, usually associated with a profound hearing impairment. By using CRISPR-Cas9 genetic edition, we have generated a murine model (Dfnb1 em274 ) that reproduces the most frequent of those deletions, del(GJB6-D13S1830). Dfnb1 em274 homozygous mice are viable, bypassing the embryonic lethality of the Gjb2 knockout, and present a phenotype of profound hearing loss (> 90 dB SPL) that correlates with specific structural abnormalities in the cochlea. We show that Gjb2 expression is nearly abolished and its protein product, Cx26, is nearly absent all throughout the cochlea, unlike previous conditional knockouts in which Gjb2 ablation was not obtained in all cell types. The Dfnb1 em274 model recapitulates the clinical presentation of patients harbouring the del(GJB6-D13S1830) variant and thus it is a valuable tool to study the pathological mechanisms of DFNB1 and to assay therapies for this most frequent type of human ARNSHI., (© 2024. The Author(s).)

Published

2024

23. [Mutation spectrum analysis of 23-site chip neonatal deafness genetic screening].

Author

Ruan Y, Cheng X, Zhang W, Zhao L, Xie J, Wen C, Li Y, Deng L, and Huang L

Subjects

Infant, Infant, Newborn, Humans, Connexins genetics, Connexin 26 genetics, DNA Mutational Analysis, Sulfate Transporters genetics, Genetic Testing, Mutation, Neonatal Screening, China, Deafness genetics, Deafness diagnosis, Hearing Loss genetics

Abstract

Objective: To analyze the mutation spectrum of 23-site chip newborn deafness genetic screening in Beijing, and to provide basis for genetic counseling and clinical diagnosis and treatment. Methods: The study included 21 006 babies born in Beijing from December 2022 to June 2023. All subjects underwent newborn deafness genetic screening in Beijing Tongren Hospital, covering 23 variants in 4 genes, the GJB2 gene（c.35delG, c.176&#95;191del16, c.235delC, c.299&#95;300delAT, c.109G>A, c.257C>G, c.512insAACG, c.427C>T, c.35insG）, SLC26A4 gene（c.919-2A>G, c.2168A>G, c.1174A>T, c.1226G>A, c.1229C>T, c.1975G>C, c.2027T>A, c.589G>A, c.1707+5G>A, c.917insG, c.281C>T）, Mt12SrRNA （m.1555A>G, m.1494C>T） and GJB3 gene（c.538C>T）. The mutation detection rate and allele frequency were analyzed. Results: The overall mutation detection rate was 11.516%（2 419/21 006）, with the GJB2 gene being the most frequently involved at 9.097%（1 911/21 006）, followed by the SLC26A4 gene at 2.123%（446/21 006）, the GJB3 gene at 0.362%（76/21 006） and Mt12SrRNA at 0.176%（37/21 006）. Among the GJB2 genes, c.109G>A and c.235delC mutation detection rates were the highest, with 6.579%（1 382/21 006） and 1.795%（377/21 006）, respectively. Of the SLC26A4 genes, c.919-2A>G and c.2168A>G had the highest mutation rates of 1.423%（299/21 006） and 0.233%（49/21 106）, respectively. Regarding the allele frequency, GJB2 c.109G>A was the most common variant with an allele frequency of 3.359%（1 411/42 012）, followed by the GJB2 c.235delC at 0.897%（377/42 012） and the SLC26A4 c.919-2A>G at 0.719%（302/42 012）. Conclusion: 23-site chip newborn deafness genetic screening in Beijing showed that GJB2 c.109G>A mutation detection rate and allele frequency were the highest. This study has enriched the epidemiological data of 23-site chip genetic screening mutation profiles for neonatal deafness, which can provide evidence for clinical practice., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Editorial Department of Journal of Clinical Otorhinolaryngology Head and Neck Surgery.)

Published

2024

24. The genetic basis and the diagnostic yield of genetic testing related to nonsyndromic hearing loss in Qatar.

Author

Alkhidir S, El-Akouri K, Al-Dewik N, Khodjet-El-Khil H, Okashah S, Islam N, Ben-Omran T, and Al-Shafai M

Subjects

Adult, Humans, Child, Connexins genetics, Connexin 26 genetics, Mutation, Retrospective Studies, Qatar, Genetic Testing, Deafness genetics, Hearing Loss diagnosis, Hearing Loss genetics

Abstract

Hearing loss is the most predominant sensory defect occurring in pediatrics, of which, 66% cases are attributed to genetic factors. The prevalence of hereditary hearing loss increases in consanguineous populations, and the prevalence of hearing loss in Qatar is 5.2%. We aimed to investigate the genetic basis of nonsyndromic hearing loss (NSHL) in Qatar and to evaluate the diagnostic yield of different genetic tests available. A retrospective chart review was conducted for 59 pediatric patients with NSHL referred to the Department of Adult and Pediatric Medical Genetics at Hamad Medical Corporation in Qatar, and who underwent at least one genetic test. Out of the 59 patients, 39 were solved cases due to 19 variants in 11 genes and two copy number variants that explained the NSHL phenotype. Of them 2 cases were initially uncertain and were reclassified using familial segregation. Around 36.8% of the single variants were in GJB2 gene and c.35delG was the most common recurrent variant seen in solved cases. We detected the c.283C > T variant in FGF3 that was seen in a Qatari patient and found to be associated with NSHL for the first time. The overall diagnostic yield was 30.7%, and the diagnostic yield was significantly associated with genetic testing using GJB2 sequencing and using the hearing loss (HL) gene panel. The diagnostic yield for targeted familial testing was 60% (n = 3 patients) and for gene panel was 50% (n = 5). Thus, we recommend using GJB2 gene sequencing as a first-tier genetic test and HL gene panel as a second-tier genetic test for NSHL. Our work provided new insights into the genetic pool of NSHL among Arabs and highlights its unique diversity, this is believed to help further in the diagnostic and management options for NSHL Arab patients., (© 2024. The Author(s).)

Published

2024

25. Hearing Loss: Genetic Testing, Current Advances and the Situation in Latin America.

Author

De Rosa MA, Bernardi MT, Kleppe S, and Walz K

Subjects

Humans, Connexins genetics, Connexin 26 genetics, Mutation, Latin America epidemiology, Genetic Testing, Hearing Loss diagnosis, Hearing Loss genetics, Deafness diagnosis, Deafness genetics

Abstract

Congenital hearing loss is the most common birth defect, estimated to affect 2-3 in every 1000 births, with ~50-60% of those related to genetic causes. Technological advances enabled the identification of hundreds of genes related to hearing loss (HL), with important implications for patients, their families, and the community. Despite these advances, in Latin America, the population with hearing loss remains underdiagnosed, with most studies focusing on a single locus encompassing the GJB2 / GJB6 genes. Here we discuss how current and emerging genetic knowledge has the potential to alter the approach to diagnosis and management of hearing loss, which is the current situation in Latin America, and the barriers that still need to be overcome.

Published

2024

26. Analysis of deafness susceptibility gene of neonates in northern Guangdong, China.

Author

Ma Z, Huang W, Xu J, Qiu J, Liu Y, Ye M, and Fan S

Subjects

Infant, Newborn, Humans, Connexin 26 genetics, Mutation, DNA Mutational Analysis, DNA, Mitochondrial genetics, China epidemiology, Connexins genetics, Deafness epidemiology, Deafness genetics, Deafness diagnosis

Abstract

This study aimed to explore the molecular epidemiology characteristics of deafness susceptibility genes in neonates in northern Guangdong and provide a scientific basis for deafness prevention and control. A total of 10,183 neonates were recruited between January 2018 and December 2022 at Yuebei People's Hospital. Among these, a PCR hybridization screening group of 8276 neonates was tested for four deafness genes: GJB2, SLC26A4, mtDNA, and GJB3 by PCR hybridization. Another group used next-generation sequencing (NGS) to detect genetic susceptibility genes in 1907 neonates. In PCR hybridization screening group, 346 (4.18%) of 8276 neonates were found to be carriers of the deafness gene. Among these, 182 (2.2%) had GJB2 variants, 114 (1.38%) had SLC26A4 variants, 35 (0.42%) had mtDNA variants, and 15 (0.18%) had GJB3 variants. In NGS Screening Group, 195 out of 1907 neonates were found to be carriers of the deafness gene, with a positive rate of 10.22%. Among these, 137 (7.18%) had GJB2 variants, 41 (2.15%) had SLC26A4 variants, 11 (0.58%) had mtDNA variants, and 6 (0.31%) had GJB3 variants. The prevalence of deafness gene variants was high in Northern Guangdong Province. The most common gene for deafness was GJB2, followed by SLC26A4 and mtDNA. GJB3 variants are rare. Compared with PCR hybridization method, NGS technology can expand the screening scope and greatly improve the detection rate of deafness genes. The c.109G>A of GJB2 was found to occur at a high frequency, which should be considered. Therefore, it is important to conduct neonatal deafness gene screening to prevent and control hereditary deafness., (© 2024. The Author(s).)

Published

2024

27. A novel method for detecting nine hotspot mutations of deafness genes in one tube.

Author

Yu Y, Zhang J, Zhan Y, and Luo G

Subjects

Humans, Connexin 26 genetics, Reproducibility of Results, RNA, Ribosomal genetics, DNA Mutational Analysis, Mutation, China, Connexins genetics, Deafness diagnosis, Deafness genetics

Abstract

Deafness is a common sensory disorder. In China, approximately 70% of hereditary deafness originates from four common deafness-causing genes: GJB2, SLC26A4, GJB3, and MT-RNR1. A single-tube rapid detection method based on 2D-PCR technology was established for nine mutation sites in the aforementioned genes, and Sanger sequencing was used to verify its reliability and accuracy. The frequency of hotspot mutations in deafness genes was analysed in 116 deaf students. 2D-PCR identified 27 genotypes of nine loci according to the melting curve of the FAM, HEX, and Alexa568 fluorescence channels. Of the 116 deaf patients, 12.9% (15/116) carried SLC26A4 mutations, including c.919-2A > G and c.2168A > G (allele frequencies, 7.3% and 2.2%, respectively). The positivity rate (29.3%; 34/116) was highest for GJB2 (allele frequency, 15.9% for c.235delC, 6.0% for c.299&#95;300delAT, and 2.6% for c.176-191del16). Sanger sequencing confirmed the consistency of results between the detection methods based on 2D-PCR and DNA sequencing. Common pathogenic mutations in patients with non-syndromic deafness in Changzhou were concentrated in GJB2 (c.235delC, c.299&#95;300delAT, and c.176-191del16) and SLC26A4 (c.919-2A > G and c.2168 A > G). 2D-PCR is an effective method for accurately and rapidly identifying deafness-related genotypes using a single-tube reaction, and is superior to DNA sequencing, which has a high cost and long cycle., (© 2024. The Author(s).)

Published

2024

28. Unraveling the Diversity of GJB2 Mutations in Nonsyndromic Hearing Loss: A Comprehensive Study in the Moroccan Population.

Author

El Fizazi K, Abbassi M, Nmer S, Laamarti H, ElAlami MN, Ouldim K, Bouguenouch L, and Ridal M

Subjects

Humans, Morocco, Female, Male, Deafness genetics, Child, Adult, Adolescent, Child, Preschool, Young Adult, Pedigree, Connexin 26 genetics, Connexins genetics, Mutation

Abstract

Introduction: Despite the high genetic heterogeneity of hearing loss, mutations in the GJB2 gene are a major cause of autosomal recessive nonsyndromic hearing loss (NSHL) worldwide. However, the mutation profile of GJB2 in NSHL is under-investigated in Morocco, especially among simplex cases. This study aimed to identify the spectrum and frequency of GJB2 mutations in the Moroccan population among simplex and multiplex families with NSHL., Methods: Moroccan families with NSHL were selected according to well-defined criteria. Selected families were screened for GJB2 gene variants using direct sequencing of the entire coding region of GJB2., Results: A total of 145 affected individuals from 115 families with NSHL were included in this study (49 simplex, 66 multiplex). Mutations in the GJB2 gene were noted in 28.69% of the families (33/115), of which 75.75% were multiplex families and 24.24% were simplex. In total, seven different mutations were detected: c.35delG(p.G12fs), c.551G&gt;A(p.R184Q), c.139G&gt;T(p.E47X), c.109G&gt;A(p.V37I), c.167delT(p.L56fs), c.617A&gt;G(p.N206S), c.94C&gt;T(p.R32C). The last three mutations have not previously been reported in Morocco. The most common GJB2 mutation was c.35delG (21.73%), followed by p.V37I (2.60%) and p.E47X (1.73%)., Conclusions: Our study confirms a high prevalence of GJB2 variants in the Moroccan population, particularly the c.35delG mutation. Additionally, we have identified previously unreported or rarely reported mutations, revealing a greater diversity of GJB2 mutations. These findings emphasize the importance of comprehensive screening beyond the 35delG mutation for patients with NSHL, regardless of their family history. Integrating this approach into clinical care will enhance diagnosis and management of hearing loss in the Moroccan population., (© 2024 S. Karger AG, Basel.)

Published

2024

29. [Genetic characteristic analysis of slight-to-moderate sensorineural hearing loss in children].

Author

Zhou R, Guan J, and Wang Q

Subjects

Humans, Child, Connexins genetics, Connexin 26 genetics, Mutation, Hearing Loss, Bilateral, Audiometry, Pure-Tone, Intercellular Signaling Peptides and Proteins, Hearing Loss, Sensorineural genetics, Hearing Loss, Sensorineural diagnosis, Usher Syndromes

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 ., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Editorial Department of Journal of Clinical Otorhinolaryngology Head and Neck Surgery.)

Published

2024

30. Genetic screening of 15 hearing loss variants in 77,647 neonates with clinical follow-up.

Author

Kun L, Jiexiang H, Hua L, Junlin H, Yijun R, Lixian Z, and Mingqiao C

Subjects

Infant, Child, Infant, Newborn, Humans, Follow-Up Studies, Connexins genetics, Connexin 26 genetics, Mutation, Genetic Testing methods, Hearing Loss diagnosis, Hearing Loss genetics, Deafness genetics

Abstract

Background: To analyze the genotype distribution and frequency of hearing loss genes in newborn population and evaluate the clinical value of genetic screening policy in China., Methods: Genetic screening for hearing loss was offered to 84,029 neonates between March 2019 and December 2021, of whom 77,647 newborns accepted the screening program with one-year follow-up. The genotyping of 15 hot spot variants in GJB2, GJB3, SLC26A4, and MT-RNR1 was performed on microarray platform., Results: A total of 3.05% (2369/77,647) newborns carried at least one genetic hearing loss-associated variant, indicated for early preventive management. The carrier frequency of GJB2 gene was the highest, at 1.48% (1147/77,647), followed by SLC26A4 gene at 1.07% (831/77,647), and GJB3 gene at 0.23% (181/77,647). GJB2 c.235delC variant and SLC26A4 IVS7-2A>G variant were the most common allelic variants with allele frequency of 0.6304% (979/155,294) and 0.3992% (620/155,294), respectively. 10 children are identified as homozygous or compound heterozygous for pathogenic variants (4 in GJB2, 6 in SLC26A4), and 7 of these infants had passed the hearing screening. Following up of the genetically screened newborns revealed that genetic screening detected more hearing-impaired infants than hearing screening alone. Genetic screening helped identify the infants who had passed the initial hearing screening, and reduced time for diagnosis and intervention of hearing aid. In addition, we identified 234 newborns (0.30%, 234/77,647) susceptible to preventable aminoglycoside antibiotic ototoxicity undetectable by hearing screening., Conclusion: We performed the largest-scale neonatal carrier screening for hearing loss genes in Southeast China. Our results indicated that genetic screening is an important complementation to conventional hearing screening. Our practice and experience may facilitate the application and development of neonatal genetic screening policy in mainland China., (© 2023 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals LLC.)

Published

2024

31. [Distribution characteristics and correlation analysis of GJB2 variation in patients with auditory neuropathy].

Author

Li Y, Wang H, Li D, and Wang Q

Subjects

Humans, Connexins genetics, Connexin 26 genetics, Mutation, Hearing Loss, Central genetics, Deafness genetics

Abstract

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&#95;360del], exhibiting total deafness. One was GJB2 [c. 299&#95;300delAT][c. 35&#95;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., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Editorial Department of Journal of Clinical Otorhinolaryngology Head and Neck Surgery.)

Published

2024

32. Mutation analysis of GJB2, SLC26A4, GJB3 and mtDNA12SrRNA genes in 251 non-syndromic hearing loss patients in Fujian, China.

Author

Xiong Y, Chen M, Wang H, Chen L, Huang H, and Xu L

Subjects

Child, Humans, China, Connexin 26 genetics, Connexins genetics, DNA Mutational Analysis, Mutation, Sulfate Transporters genetics, Deafness diagnosis, Deafness genetics, Hearing Loss diagnosis, Hearing Loss genetics, Hearing Loss, Sensorineural genetics

Abstract

Objectives: The molecular etiology of non-syndromic hearing loss (NSHL) in Southeastern China (Fujian) has not been precisely identified. our study selected patients with NSHL and analyzed their causative genes, which helped to improve the accuracy of the diagnosis of hereditary hearing loss (HHL) and its treatment., Methods: 251 unrelated patients who attended the otolaryngology clinic of Fujian Maternal and Child Health Hospital with hearing loss were enrolled to our study. All patients had genetic tests and listening tests, of which 251 were diagnosed with NSHL. In addition, we used whole-exome sequencing (WES) in a patient who has a significant family history of HHL but negative for gene chip testing, as well as in his family members., Result: Among of 251 patients, Nucleotide changes were found in 63 cases (25.09%), including 34 located in GJB2(13.5%, including 235delC and 299&#95;300delAT), 13 located in SLC26A4(5.18%, including c.919-2G > A and 2168 A > G), 1 located in GJB3(0.4%,538C > T) and 16 located in mtDNA12SrRNA (6.37%,1555 A > G). In addition, we discuss the process of identifying novel PLS1 mutations from 251 patients., Conclusion: Our results demonstrate the conventional deafness gene mutation in 251 NSHL patients in Fujian, China. Compared with the other area of China, we have a lower detection rate, but GJB2 235delC remains the most common mutation in Fujian. In addition, we discuss the process of discovering novel mutation locus for deafness, which provides an understanding for deafness diagnosis and genetic testing., Competing Interests: Declaration of competing interest All authors declare that they have no any conflict of interests., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

33. Hearing and Hearing Loss Progression in Patients with GJB2 Gene Mutations: A Long-Term Follow-Up.

Author

Sakata A, Kashio A, Koyama M, Urata S, Koyama H, and Yamasoba T

Subjects

Child, Humans, Connexin 26 genetics, Connexins genetics, Follow-Up Studies, Genotype, Hearing, Mutation, Phenotype, Deafness genetics, Hearing Loss genetics, Hearing Loss, Sensorineural genetics

Abstract

We aimed to investigate whether the degree of hearing loss with GJB2 mutations could be predicted by distinguishing between truncating and non-truncating mutations and whether the genotype could predict the hearing loss level. Additionally, we examined the progression of hearing loss in individuals monitored for over 2 years for an average of 6.9 years. The proportion of truncating mutations was higher in patients with profound and severe hearing loss, but it was not accurate enough to predict the degree of hearing loss. Via genotype analysis, mutations of the p.Arg143Trp variants were associated with profound hearing loss, while mutations of the p.Leu79Cysfs*3 allele exhibited a wide range of hearing loss, suggesting that specific genotypes can predict the hearing loss level. Notably, there were only three cases of progression in four ears, all of which involved the p.Leu79Cysfs*3 mutation. Over the long-term follow-up, 4000 Hz was significant, and there was a trend of progression at 250 Hz, suggesting that close monitoring at these frequencies during follow-up may be crucial to confirm progression. The progression of hearing loss was observed in moderate or severe hearing loss cases at the time of the initial diagnosis, emphasizing that children with this level of hearing loss need regular follow-ups.

Published

2023

34. Characteristics of hearing loss-associated gene mutations: A multi-center study of 119,606 neonates in Gannan.

Author

Zhao M, Luo X, Zhao Q, Yang T, Zhang W, Chen Z, Zeng S, Chen W, Zhang H, Wang Q, Wang W, Zhang X, and Zhong T

Subjects

Humans, Infant, Newborn, Connexins genetics, Connexin 26 genetics, Neonatal Screening methods, Mutation, China epidemiology, Hearing Loss diagnosis, Hearing Loss epidemiology, Hearing Loss genetics, Deafness genetics, Hearing Loss, Sensorineural diagnosis

Abstract

Background: HL is the second most common congenital disability in China, and its high incidence brings a serious burden of medical and educational sequelae. HL genetic screening enables the identification of individuals with inherited HL and carriers in a large scale., Objective: This study aimed to measure the detection rates of hearing loss (HL)-associated gene mutations in the Gannan population. The molecular etiology and risk factors of hereditary HL were also analyzed., Methods: In total, 119,606 newborns from 18 districts of Gannan were enrolled in this multi-center study conducted between April 2019 and April 2021. Otoacoustic Emission (OAE) was used for primary hearing screening 3 days after birth in quiet conditions, and OAE combined with automated auditory brainstem response (AABR) was applied 29-42 days after birth for those who failed or missed the initial screening. Meanwhile, high-throughput sequencing of hotspot HL-associated mutations in GJB2, GJB3, MTRNR1, and SLC26A4 were performed., Results: Among the 119,606 newborns, 7796 (6.52%) failed the hearing screening. Genetic screening revealed that 5092 neonates (4.26%) carried HL-associated mutations. The detection rate of GJB2, SLC26A4, MTRNR1 and GJB3 mutations were 2.09%, 1.51%, 0.42% and 0.24%, respectively. The most prevalent variant was GJB2 c.235delC (1.74%). The second most prevalent variant was SLC26A4 c.919-2A > G (0.93%). The population who failed the hearing screening had a lower proportion (24.64%) of SLC26A4 gene variants compared to the population who passed (37.46%). Genetic screening identified 4612 (3.86%) carriers who were normal in hearing screenings. The concurrent hearing and genetic screening identified 480 (0.40%) neonates at high risk for hereditary HL., Conclusions: The results of this study suggest that the concurrent hearing screening and high-throughput genetic screening would greatly improve the effectiveness of newborn HL programs. This integration also facilitates the management of congenital HL, and aids in the prevention of aminoglycoside antibiotics-induced HL., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

35. GJB2 p.V37I Mutation Associated With Moderate Nonsyndromic Hearing Loss in an Adult Taiwanese Population.

Author

Yen TT, Chen IC, Cho S, Chang TG, Shih KH, Hua MW, Li JL, Hsu CY, Hsiao TH, and Chen YM

Subjects

Adult, Humans, Case-Control Studies, Connexin 26 genetics, Connexins genetics, Mutation, Hearing Loss genetics, Hearing Loss, Sensorineural genetics

Abstract

Background: Gap junction protein beta 2 ( GJB2 ) p.V37I mutations are the most important hereditary cause of sensorineural hearing loss (SNHL) in Taiwan. Hearing outcomes are associated with hearing levels at baseline and the duration of follow-up. However, the audiological features of GJB2 p.V37I mutations in the adult population are unknown. The objectives of the present study were to investigate the audiological features, progression rate, and allele frequency of GJB2 p.V37I mutations among an adult Taiwanese population., Methods: Subjects of this case-control study were chosen from 13,580 participants of the Taiwan Precision Medicine Initiative. The genetic variations of GJB2 p.V37I were determined by polymerase chain reaction. We analyzed existing pure-tone threshold data from 38 individuals who were homozygous or compound heterozygotes for GJB2 p.V37I, 129 who were heterozygotes, and 602 individuals who were wild-type. Phenome-wide association studies (PheWAS) analysis was also performed to identify phenotypes associated with GJB2 p.V37I., Results: The minor allele frequency of GJB2 p.V37I was 0.92% in our study population. The mean hearing level of participants with a p.V37I mutation indicated moderate to severe hearing loss with 38.2% ± 22.3% binaural hearing impairment. GJB2 p.V37I was associated with an increased risk of hearing disability (odds ratio: 21.46, 95% confidence interval: 8.62 to 53.44, p < 0.001) in an autosomal recessive pattern. In addition, PheWAS discovered a significant association between GJB2 p.V37I and fracture of the humerus. GJB2 p.V37I is a pathogenic and prevalent variant of SNHL among the adult population., Conclusions: The present study recommends patients with known GJB2 p.V37I mutations receive regular audiometric evaluation and genetic counseling. Early assistive listening device intervention is suggested to improve the quality of hearing., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2023

36. Genetic Factors Contribute to the Phenotypic Variability in GJB2-Related Hearing Impairment.

Author

Chiang YT, Lin PH, Lo MY, Chen HL, Lee CY, Tsai CY, Lin YH, Tsai SF, Liu TC, Hsu CJ, Chen PL, Hsu JS, and Wu CC

Subjects

Adult, Female, Humans, Male, Case-Control Studies, Genetic Association Studies methods, Genetic Predisposition to Disease, High-Throughput Nucleotide Sequencing, Homozygote, Mutation, Phenotype, Connexin 26 genetics, Hearing Loss, Sensorineural genetics, Crystallins genetics

Abstract

Recessive variants in GJB2 are the most important genetic cause of sensorineural hearing impairment (SNHI) worldwide. Phenotypes vary significantly in GJB2-related SNHI, even in patients with identical variants. For instance, patients homozygous for the GJB2 p.V37I variant, which is highly prevalent in the Asian populations, usually present with mild-to-moderate SNHI; yet severe-to-profound SNHI is occasionally observed in approximately 10% of p.V37I homozygotes. To investigate the genomic underpinnings of the phenotypic variability, we performed next-generation sequencing of GJB2 and other deafness genes in 63 p.V37I homozygotes with extreme phenotypic severities. Additional pathogenic variants of other deafness genes were identified in five of the 35 patients with severe-to-profound SNHI. Furthermore, case-control association analyses were conducted for 30 unrelated p.V37I homozygotes with severe-to-profound SNHI against 28 p.V37I homozygotes with mild-to-moderate SNHI, and 120 population controls from the Taiwan Biobank. The severe-to-profound group exhibited a higher frequency of the crystallin lambda 1 (CRYL1) variant (rs14236), located upstream of GJB2, than the mild-to-moderate and Taiwan Biobank groups. Our results demonstrated that pathogenic variants in other deafness genes and a possible modifier, the CRYL1 rs14236 variant, may contribute to phenotypic variability in GJB2-realted SNHI, highlighting the importance of comprehensive genomic surveys to delineate the genotype-phenotype correlations., Competing Interests: Disclosure Statement None declared., (Copyright © 2023 Association for Molecular Pathology and American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2023

37. Genotypic and Allelic Frequencies of GJB2 Variants and Features of Hearing Phenotypes in the Chinese Population of the Dongfeng-Tongji Cohort.

Author

Yuan L, Wang X, Liu X, Chen S, Kong W, He M, and Sun Y

Subjects

Humans, East Asian People, Gene Frequency, Genotype, Hearing, Phenotype, Connexin 26 genetics, Deafness genetics, Hearing Loss genetics

Abstract

Background: This study aimed to describe the distribution of the genotype and allele frequencies of GJB2 variants in the Chinese population of the Dongfeng Tongji cohort and to analyze the features of the hearing phenotype., Methods: We used data from 9910 participants in the Dongfeng Tongji cohort in 2013 and selected nine GJB2 variants. Pure tone audiometry was employed to measure hearing. Differences in genotype and allele frequencies were analyzed via chi-squared test or Fisher's exact test., Results: Of the 9910 participants, 5742 had hearing loss. The genotype frequency of the GJB2 variant c.109G>A was statistically significantly distributed between the normal and impaired hearing groups, but not for the variant c.235delC. A higher frequency of the c.109G>A homozygous genotype was found in the hearing loss group (0.5%) than in the normal hearing group (0.1%). Patients with c.109G>A and c.235delC homozygous mutations exhibited varying degrees of hearing loss, mainly presenting sloping and flat audiogram shapes., Conclusions: A significant difference was found in the genotype frequency of the GJB2 variant c.109G>A between the case and control groups, but not in that of the variant c.235delC. Different degrees of hearing loss and various audiogram shapes were observed in patients with c.109G>A and c.235delC homozygous mutations.

Published

2023

38. Functional Consequences of Pathogenic Variants of the GJB2 Gene (Cx26) Localized in Different Cx26 Domains.

Author

Posukh OL, Maslova EA, Danilchenko VY, Zytsar MV, and Orishchenko KE

Subjects

Humans, Connexins genetics, Deafness genetics, Hearing Loss, Sensorineural genetics, Mutation, Connexin 26 genetics, Hearing Loss genetics

Abstract

One of the most common forms of genetic deafness has been predominantly associated with pathogenic variants in the GJB2 gene, encoding transmembrane protein connexin 26 (Cx26). The Cx26 molecule consists of an N-terminal domain (NT), four transmembrane domains (TM1-TM4), two extracellular loops (EL1 and EL2), a cytoplasmic loop, and a C-terminus (CT). Pathogenic variants in the GJB2 gene, resulting in amino acid substitutions scattered across the Cx26 domains, lead to a variety of clinical outcomes, including the most common non-syndromic autosomal recessive deafness (DFNB1A), autosomal dominant deafness (DFNA3A), as well as syndromic forms combining hearing loss and skin disorders. However, for rare and poorly documented variants, information on the mode of inheritance is often lacking. Numerous in vitro studies have been conducted to elucidate the functional consequences of pathogenic GJB2 variants leading to amino acid substitutions in different domains of Cx26 protein. In this work, we summarized all available data on a mode of inheritance of pathogenic GJB2 variants leading to amino acid substitutions and reviewed published information on their functional effects, with an emphasis on their localization in certain Cx26 domains.

Published

2023

39. Identification a novel pathogenic LRTOMT mutation in Mauritanian families with nonsyndromic deafness.

Author

Salame M, Bonnet C, Moctar ECM, Brahim SM, Dedy A, Vetah LA, Veten F, Hamed CT, Petit C, and Houmeida A

Subjects

Child, Humans, Connexin 26 genetics, Connexins genetics, Mauritania, Mutation, Deafness genetics, Deafness diagnosis, Hearing Loss, Sensorineural diagnosis

Abstract

Purpose: Although recessive mutations in GJB2 are the common genetic etiology of sensorineural hearing impairment (SNHI), variants in LRTOMT gene were also identified, mostly in Middle East and North African populations., Methods: Using Sanger sequencing we screened the exon 7 of LRTOMT in a cohort of 128 unrelated Mauritanian children with congenital deafness., Results: Only one biallelic missense mutation, predicted as pathogenic (c.179 T > C;p.Leu60Pro) was found at homozygous state in four families. This variant, not reported before, showed a deleterious effect by SIFT (score: 0.01) and a disease-causing effect by Mutation Taster (prob: 1). Exploration of the encoded protein 3D structure revealed a disruption from an organized α helix (in the normal protein structure) into a random conformation. Early fitting of a cochlear implant seemed to improve the audition ability of the mutation carrier., Conclusion: Further screening using a panel of deafness genes may expose other variants underlying hearing impairment in our population., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

40. Exome sequencing identifies novel variants associated with non-syndromic hearing loss in the Iranian population.

Author

Vallian Broojeni J, Kazemi A, Rezaei H, and Vallian S

Subjects

Humans, Connexin 26 genetics, Iran, Exome Sequencing, Mutation, Pedigree, Connexins genetics, Deafness genetics

Abstract

Autosomal recessive non-syndromic hearing loss (ARNSHL) is a public health concern in the Iranian population, with an incidence of 1 in 166 live births. In the present study, the whole exome sequencing (WES) method was applied to identify the mutation spectrum of NSHL patients negative for GJB2 gene mutations. First, using ARMS PCR followed by Sanger sequencing of the GJB2 gene, 63.15% of mutations in patients with NSHL were identified. Among the identified mutations in GJB2:p.Val43Met and p.Gly21Arg were novel. The remaining patients were subjected to WES, which identified novel mutations including MYO15A:p.Gly39LeufsTer188, ADGRV1:p.Ser5918ValfsTer23, MYO7A: c.5856+2T>c (splicing mutation), FGF3:p.Ser156Cys. The present study emphasized the application of WES as an effective method for molecular diagnosis of NSHL patients negative for GJB2 gene mutations in the Iranian population., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Broojeni et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

41. Analysis of GJB2 gene mutations spectrum and the characteristics of individuals with c.109G>A in Western Guangdong.

Author

Liang S, Li W, Chen Z, Yuan S, and Wang Z

Subjects

Adolescent, Adult, Child, Child, Preschool, Humans, Infant, Infant, Newborn, Middle Aged, Young Adult, Mutation, Connexin 26 genetics, Deafness genetics

Abstract

Background: GJB2 mutations are among the most important causes of deafness, and their prevalence varies greatly among different countries and ethnic groups. This study aimed to determine the pathogenic mutation spectrum of GJB2 in patients with nonsyndromic hearing loss (NSHL) in Western Guangdong and to explore the pathogenic characteristics of the c.109G>A locus., Methods: In total, 97 NSHL patients and 212 normal controls (NC) were included in this study. Genetic sequencing analyses were performed on GJB2., Results: In the NSHL group, the main pathogenic mutations in GJB2 were as follows: c.109G>A, c.235delC, and c.299&#95;300delAT with allele frequencies of 9.28%, 4.12%, and 2.06%, respectively. c.109G>A was the most frequently detected pathogenic mutation in this region. In the NC group, the allele frequency of c.109G>A among 30-50 years old subjects was markedly lower than that among 0-30 years old subjects (5.31% vs. 11.11%, p < 0.05)., Conclusion: We found the pathogenic mutation spectrum of GJB2 in this region and showed that c.109G>A was the most common GJB2 mutation with unique characteristics, such as clinical phenotypic heterogeneity and delayed onset. Therefore, the c.109G>A mutation should be considered as an essential marker for routine genetic assessment of deafness, which can also be beneficial for preventing deafness., (© 2023 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals LLC.)

Published

2023

42. [Results of combined newborn hearing and deafness gene screening in Yuncheng area of Shanxi Province].

Author

He H, Su L, Xu J, Wang Y, Wang Y, Guo C, and Linghu D

Subjects

Infant, Newborn, Humans, Retrospective Studies, Connexin 26 genetics, Neonatal Screening methods, Mutation, Genetic Testing methods, China epidemiology, Hearing, DNA Mutational Analysis, Connexins genetics, Deafness diagnosis, Deafness genetics

Abstract

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.

Published

2023

43. Gene Screening for Non-Syndromic Deafness in Hainanese Patients.

Author

Fu Y, Zhao Z, Zheng J, Zhu Y, and Sun L

Subjects

Child, Humans, Connexins genetics, Connexin 26 genetics, Asian People genetics, DNA, Mitochondrial genetics, RNA, Ribosomal genetics, Sulfate Transporters genetics, Mutation genetics, Deafness genetics, Hearing Loss

Abstract

Background: Hainan Province is the southernmost island in China, far from the mainland, and the resident population changes little. In order to understand the mutation spectrum in Hainan and provide effective genetic counseling for deaf people, we carried out genetic analysis on the non-comprehensive hearing impairment in this population. Therefore, in this study, 183 children with moderate sensorineural deafness in the northeast of Hainan were analyzed with susceptibility gene carrying and gene mutation, providing some reference for hainan to guide the prevention and treatment of deafness., Methods: Complete clinical evaluations were performed on 183 unrelated patients with a non-syndromic hearing impairment from Hainan Province. Each subject was screened for common mutations using the matrix-assisted laser desorption ionization-time of flight mass spectrometry, including GJB2 c.35delG,c.235delC,c.299&#95;300del AT,c.176&#95;191del16,c.167delT; GJB3 c.538 C>T,c.547G >A;SLC26A4 IVS7-2 A>G,c.2168 A>G,c.1174A>T,c.1229 C>T,c.1226G>A,c.1975G>C,c.2027T>A,c.2162C>T,c.281C>T,c.589G>A,IVS15+5G>A; and mtRNA 1494 C>T,1555 A>G., Results: Genetic analysis showed that GJB2, SLC26A4, and mitochondrial M. 1555A > G mutations accounted for 7.10%, 8.74%, and 0.55% of the etiology of non-syndromic hearing impairment, respectively. Common mutations include GJB2 C. 235delC, SLC26A4 c.I vs7-2a →G, C. 2168A→G, and mitochondrial M. 1555A > G. The total mutation rate in Hainan was 16.39%., Conclusion: Our study is the first one to carry out genetic analysis on non-syndromic hearing impairment in Hainan. The results show that in the cases of non-syndromic hearing impairment in these areas, there is a clear genetic cause accounted for 16.39%, and the mutation hot spots are mainly GJB2 and SLC26A4, and SLC26A4 is the most common mutation site. This study provides useful and targeted information for genetic counseling of deafness in people with non-syndromic hearing impairment in Hainan.

Published

2023

44. [A prospective study of genetic screening of 2 060 neonates by high-throughput sequencing].

Author

Zhuang D, Wang F, Ding S, Zheng Z, Yu Q, Lyu L, Sun S, Yang R, Que W, and Li H

Subjects

Child, Infant, Newborn, Humans, Female, Prospective Studies, Connexins genetics, Connexin 26 genetics, Mutation, Sulfate Transporters genetics, DNA Mutational Analysis, Genetic Testing methods, Neonatal Screening methods, High-Throughput Nucleotide Sequencing, Solute Carrier Family 22 Member 5 genetics, Glucosephosphate Dehydrogenase Deficiency, Deafness genetics, Hearing Loss, Sensorineural genetics

Abstract

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.

Published

2023

45. Optimized concurrent hearing and genetic screening in Beijing, China: A cross-sectional study.

Author

Wen C, Yang X, Cheng X, Zhang W, Li Y, Wang J, Wang C, Ruan Y, Zhao L, Lu H, Li Y, Bai Y, Yu Y, Li Y, Xie J, Qi BE, En H, Liu H, Fu X, Huang L, and Han D

Subjects

Humans, Infant, Newborn, Beijing, Cross-Sectional Studies, Cohort Studies, Connexins genetics, Connexin 26 genetics, Genetic Testing, Mutation genetics, China, Hearing, DNA Mutational Analysis, Deafness genetics, Hearing Loss diagnosis, Hearing Loss genetics

Abstract

Concurrent screening has been proven to provide a comprehensive approach for management of congenital deafness and prevention of ototoxicity. The SLC26A4 gene is associated with late-onset hearing loss and is of great clinical concern. For much earlier detection of newborns with deafness-causing mutations in the SLC26A4 gene, the Beijing Municipal Government launched a chip for optimized genetic screening of 15 variants of 4 genes causing deafness based on a chip to screen for 9 variants of 4 genes, and 6 variants of the SLC26A4 gene have now been added. To ascertain the advantage of a screening chip including 15 variants of 4 genes, the trends in concurrent hearing and genetic screening were analyzed in 2019 and 2020. Subjects were 76,460 newborns who underwent concurrent hearing and genetic screening at 24 maternal and child care centers in Beijing from January 2019 to December 2020. Hearing screening was conducted using transiently evoked otoacoustic emissions (TEOAEs), distortion product otoacoustic emissions (DPOAE), or the automated auditory brainstem response (AABR). Dried blood spots were collected for genetic testing and 15 variants of 4 genes, namely GJB2, SLC26A4, mtDNA 12S rRNA, and GJB3, were screened for using a DNA microarray platform. The initial referral rate for hearing screening decreased from 3.60% (1,502/41,690) in 2019 to 3.23% (1,124/34,770) in 2020, and the total referral rate for hearing screening dropped form 0.57% (236/41,690) in 2019 to 0.54% (187/34,770) in 2020, indicating the reduced false positive rate of newborn hearing screening and policies to prevent hearing loss conducted by the Beijing Municipal Government have had a significant effect. Positivity according to genetic screening was similar in 2019 (4.970%, 2,072/41,690) and 2020 (4.863%,1,691/34,770), and the most frequent mutant alleles were c.235 del C in the GJB2 gene, followed by c.919-2 A > G in the SLC26A4 gene, and c.299 del AT in the GJB2 gene. In this cohort study, 71.43% (5/7) of newborns with 2 variants of the SLC26A4 gene were screened for newly added mutations, and 28.57% (2/7) of newborns with 2 variants of the SLC26A4 gene passed hearing screening, suggesting that a screening chip including 15 variants of 4 genes was superior at early detection of hearing loss, and especially in early identification of newborns with deafness-causing mutations in the SLC26A4 gene. These findings have clinical significance.

Published

2023

46. The pathogenesis of common Gjb2 mutations associated with human hereditary deafness in mice.

Author

Li Q, Cui C, Liao R, Yin X, Wang D, Cheng Y, Huang B, Wang L, Yan M, Zhou J, Zhao J, Tang W, Wang Y, Wang X, Lv J, Li J, Li H, and Shu Y

Subjects

Humans, Mice, Animals, Connexins genetics, Connexin 26 genetics, Mutation, Hearing, Deafness genetics, Hearing Loss, Sensorineural genetics

Abstract

Mutations in GJB2 (Gap junction protein beta 2) are the most common genetic cause of non-syndromic hereditary deafness in humans, especially the 35delG and 235delC mutations. Owing to the homozygous lethality of Gjb2 mutations in mice, there are currently no perfect mouse models carrying Gjb2 mutations derived from patients for mimicking human hereditary deafness and for unveiling the pathogenesis of the disease. Here, we successfully constructed heterozygous Gjb2 +/35delG and Gjb2 +/235delC mutant mice through advanced androgenic haploid embryonic stem cell (AG-haESC)-mediated semi-cloning technology, and these mice showed normal hearing at postnatal day (P) 28. A homozygous mutant mouse model, Gjb2 35delG/35delG , was then generated using enhanced tetraploid embryo complementation, demonstrating that GJB2 plays an indispensable role in mouse placenta development. These mice exhibited profound hearing loss similar to human patients at P14, i.e., soon after the onset of hearing. Mechanistic analyses showed that Gjb2 35delG disrupts the function and formation of intercellular gap junction channels of the cochlea rather than affecting the survival and function of hair cells. Collectively, our study provides ideal mouse models for understanding the pathogenic mechanism of DFNB1A-related hereditary deafness and opens up a new avenue for investigating the treatment of this disease., (© 2023. The Author(s).)

Published

2023

47. Epidemiology, etiology, genetic variants in non- syndromic hearing loss in Iran: A systematic review and meta-analysis.

Author

Aliazami F, Gilani S, Farhud D, Naraghi M, Afshari M, and Eslami M

Subjects

Humans, Iran epidemiology, Mutation, Connexin 26 genetics, Connexins genetics, MARVEL Domain Containing 2 Protein genetics, Deafness epidemiology, Deafness genetics, Hearing Loss diagnosis, Hearing Loss epidemiology, Hearing Loss genetics

Abstract

Objectives: Hearing loss is one of the most common heterogeneous complicated disorders worldwide. We previously analyzed the results of published data on non-syndromic hearing loss in the Iranian population systematically. A broad range of genes is a challenge for molecular screening and clinical diagnosis in our populations on the ground of distinct genetics. The aim of this study was to analyze the role and frequency of the variants accountable for non-syndromic hearing loss (NSHL) in the Iranian population. These were identified with different methods including whole exome sequencing (WES), next-generation sequencing (NGS), targeted genomic enrichment and massively parallel sequencing (TGE + MPS), autozygosity mapping, STR markers, linkage analysis, and direct sequencing. This is the comprehensively study focusing on classifying 13 common NSHL genes according to their frequencies. Previous studies have not studied different regions and the Iranian population, and this is the definitive study on the topic., Methods: We searched Scopus, PubMed, Science Direct databases, and Google Scholar. After a systematic review of the evidence 95 studies were considered then 31 studies were eligible for meta-analysis. In total, 6995 families, 358 variants, and 117 novel variants were included. Statistical analyses were conducted using Stata SE version 11 software. The inverse variance method enjoyed combining data. Heterogeneity of the preliminary results was assessed using Q (Cochrane test), and I square index. Random effects or fixed models were applied to combine the results, relying on the degree of heterogeneity. Point and pooled prevalence of variants acting on different regions were illustrated by forest plots., Results: The total prevalence of at least one variant of GJB2 and SLC26A genes was estimated at 26% and 5%, respectively. Variant c.35delG accounted for 18% of the GJB2 variants while 1% of these variants were novel ones. The next most common variants in the GJB2 gene were c.109G>A at 3.5% and c.-23+1G>A at 2.3%. Moreover, the prevalence of GJB2 gene variants varied on average 0.002% from one region to another in Iran (p=0.849). Our meta-analysis also showed that the frequency of at least one variant of MYO15A varied between 1.2% and 12.5%. Corresponding prevalences for the other variants were as follows: ILDR1 (3.5%-3.7%), CDH23 (2%-10%), PJVK (1.4%-33%), TECTA (1.3%-6.7%), MYO6 (2%-4.8%), TMC1 (1.8%-2%), MYO7A (0.7%-5%), MARVELD2 (0.7-5%), OTOF (0.7%-4%), LRTOMT (0.7%-2.5%). Finally, we did not find any relationship between geographic area and the presence of these variants., Conclusion: GJB2 gene variants were the most common cause of NSHL in Iran. Understanding the prevalence of NSHL gene frequency in Iran may be the foundation for future studies in an Iranian population which may lead to future NSHL therapy., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

48. The GJB2 (Cx26) Gene Variants in Patients with Hearing Impairment in the Baikal Lake Region (Russia).

Author

Pshennikova VG, Teryutin FM, Cherdonova AM, Borisova TV, Solovyev AV, Romanov GP, Morozov IV, Bondar AA, Posukh OL, Fedorova SA, and Barashkov NA

Subjects

Humans, Mutation, Russia, Connexin 26 genetics, Hearing Loss genetics

Abstract

The GJB2 (Cx26) gene pathogenic variants are associated with autosomal recessive deafness type 1A (DFNB1A, OMIM #220290). Direct sequencing of the GJB2 gene among 165 hearing-impaired individuals living in the Baikal Lake region of Russia identified 14 allelic variants: pathogenic/likely pathogenic-nine variants, benign-three variants, unclassified-one variant, and one novel variant. The contribution of the GJB2 gene variants to the etiology of hearing impairment (HI) in the total sample of patients was 15.8% (26 out of 165) and significantly differed in patients of different ethnicity (5.1% in Buryat patients and 28.9% in Russian patients). In patients with DFNB1A (n = 26), HIs were congenital/early onset (92.3%), symmetric (88.5%), sensorineural (100.0%), and variable in severity (moderate-11.6%, severe-26.9% or profound-61.5%). The reconstruction of the SNP haplotypes with three frequent GJB2 pathogenic variants (c.-23+1G>A, c.35delG or c.235delC), in comparison with previously published data, supports a major role of the founder effect in the expansion of the c.-23+1G>A and c.35delG variants around the world. Comparative analysis of the haplotypes with c.235delC revealed one major haplotype G A C T (97.5%) in Eastern Asians (Chinese, Japanese and Korean patients) and two haplotypes, G A C T (71.4%) and G A C C (28.6%), in Northern Asians (Altaians, Buryats and Mongols). The variable structure of the c.235delC-haplotypes in Northern Asians requires more studies to expand our knowledge about the origin of this pathogenic variant.

Published

2023

49. Genetic Etiology of Nonsyndromic Hearing Loss in Hungarian Patients.

Author

Pál M, Nagy D, Neller A, Farkas K, Leprán-Török D, Nagy N, Füstös D, Nagy R, Németh A, Szilvássy J, Rovó L, Kiss JG, and Széll M

Subjects

Humans, Hungary, Pilot Projects, Mutation, Connexin 26 genetics, Connexins genetics, Hearing Loss diagnosis, Hearing Loss genetics

Abstract

Hearing loss is the most prevalent sensory disorder worldwide. The majority of congenital nonsyndromic hearing loss (NSHL) cases are caused by hereditary factors. Previously, the majority of NSHL studies focused on the GJB2 gene; however, with the availability of next-generation sequencing (NGS) methods, the number of novel variants associated with NSHL has increased. The purpose of this study was to design effective genetic screening for a Hungarian population based on a pilot study with 139 NSHL patients. A stepwise, comprehensive genetic approach was developed, including bidirectional capillary sequencing, multiplex ligation-dependent probe amplification (MLPA), and an NGS panel of 108 hearing loss genes. With our results, a genetic diagnosis was possible for 92 patients. Sanger sequencing and MLPA identified the genetic background of 50% of these diagnosed cases, and the NGS panel identified another 16%. The vast majority (92%) of the diagnosed cases showed autosomal recessive inheritance and 76% were attributed to GJB2 . The implementation of this stepwise analysis markedly increased our diagnostic yield and proved to be cost-effective as well.

Published

2023

50. Global Distribution of Founder Variants Associated with Non-Syndromic Hearing Impairment.

Author

Aboagye ET, Adadey SM, Wonkam-Tingang E, Amenga-Etego L, Awandare GA, and Wonkam A

Subjects

Humans, Connexin 26 genetics, Genotype, Mutation, Systematic Reviews as Topic, Trans-Activators genetics, Membrane Proteins genetics, Neoplasm Proteins genetics, Serine Endopeptidases genetics, Connexins genetics, Hearing Loss genetics

Abstract

The genetic etiology of non-syndromic hearing impairment (NSHI) is highly heterogeneous with over 124 distinct genes identified. The wide spectrum of implicated genes has challenged the implementation of molecular diagnosis with equal clinical validity in all settings. Differential frequencies of allelic variants in the most common NSHI causal gene, gap junction beta 2 ( GJB2 ), has been described as stemming from the segregation of a founder variant and/or spontaneous germline variant hot spots. We aimed to systematically review the global distribution and provenance of founder variants associated with NSHI. The study protocol was registered on PROSPERO, the International Prospective Register of Systematic Reviews, with the registration number "CRD42020198573". Data from 52 reports, involving 27,959 study participants from 24 countries, reporting 56 founder pathogenic or likely pathogenic (P/LP) variants in 14 genes ( GJB2 , GJB6 , GSDME , TMC1 , TMIE , TMPRSS3 , KCNQ4 , PJVK , OTOF , EYA4 , MYO15A , PDZD7 , CLDN14 , and CDH23 ), were reviewed. Varied number short tandem repeats (STRs) and single nucleotide polymorphisms (SNPs) were used for haplotype analysis to identify the shared ancestral informative markers in a linkage disequilibrium and variants' origins, age estimates, and common ancestry computations in the reviewed reports. Asia recorded the highest number of NSHI founder variants (85.7%; 48/56), with variants in all 14 genes, followed by Europe (16.1%; 9/56). GJB2 had the highest number of ethnic-specific P/LP founder variants. This review reports on the global distribution of NSHI founder variants and relates their evolution to population migration history, bottleneck events, and demographic changes in populations linked with the early evolution of deleterious founder alleles. International migration and regional and cultural intermarriage, coupled to rapid population growth, may have contributed to re-shaping the genetic architecture and structural dynamics of populations segregating these pathogenic founder variants. We have highlighted and showed the paucity of data on hearing impairment (HI) variants in Africa, establishing unexplored opportunities in genetic traits.

Published

2023