Association between the p.V37I variant of <i>GJB2</i> and hearing loss: a pedigree and meta-analysis

Shen, Na; Peng, Jing; Wang, Xiong; Zhu, Yaowu; Liu, Weiyong; Liu, Aiguo; Lu, Yanjun

doi:10.18632/oncotarget.17325

Cited by 21 publications

(15 citation statements)

References 43 publications

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“…However, half of them were observations from deaf families with several affected family members where genetic etiology of hearing loss could be expected. With one exception (19) they also occurred in association with those GJB2 variants which generally cause hearing loss of mild to moderate degree, such as c.269T>C, c.235delC and c.109G>A. Additionally, patients homozygous or compound heterozygous for the variant c.109G>A have often delayed hearing loss onset and rarely they may even have normal hearing, which led to past concerns regarding its pathogenicity (22,23). Moreover, SSNHL episodes in previously published cases did not occur in normal hearing individuals, but as a rapid worsening of previously diagnosed hearing loss.…”

Section: Discussionmentioning

confidence: 99%

Hereditary bilateral sudden sensorineural hearing loss

Varga¹,

Jovankovičová²,

Hučková³

et al. 2019

BLL

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The aim of our study is to demonstrate a causal link between two distinct diagnoses, the hereditary hearing loss, and the sudden sensorineural hearing loss. BACKGROUND: Sudden sensorineural hearing loss is an emergency condition in otolaryngology and a rare diagnosis in childhood. Most often it only affects one ear and its cause remains unknown. METHODS: We present a clinical study of a 10-year-old female patient presenting with bilateral sudden sensorineural hearing loss analyzed by Sanger sequencing of the GJB2 gene. RESULTS: The subject was referred to the hospital for bilateral sudden hearing loss which developed 3 days before the admission. Audiometric testing confi rmed bilateral asymmetric sensorineural hearing loss. All routine diagnostic procedures including MRI and CT imaging showed normal results. She was treated with intravenous and intratympanic corticosteroids followed by hyperbaric oxygen therapy with partial hearing recovery in one ear. DNA analysis of the GJB2 gene identifi ed biallelic c.35delG deletion. The subject had no other affected family members and her auditory development to that time was normal. CONCLUSION: Our fi nding extends the knowledge on phenotype variability in GJB2 variants. We suggest considering genetic testing in pediatric cases of bilateral sudden sensorineural hearing loss (Tab. 1, Fig. 4, Ref. 24).

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Section: Discussionmentioning

confidence: 99%

Hereditary bilateral sudden sensorineural hearing loss

Varga¹,

Jovankovičová²,

Hučková³

et al. 2019

BLL

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“…To identify the genetic cause of NSHL in this proband, we routinely applied a Sanger sequencing of four common HL-associated genes, including gap junction protein beta-2 ( GJB2 ), gap junction protein beta-3 ( GJB3 ), solute carrier family 26 member 4 ( SLC26A4 ) and mitochondrially encoded 12S RNA ( MT-RNR1 ). DNA preparation, PCR conditions and Sanger sequencing process were described previously [23]. The coding regions of GJB2 and GJB3 , hotspot region (exon7–8 and exon19) of SLC26A4 , and the full-length region of MT-RNR1 were carefully screened, only a homozygous variant, m.827A > G within MT-RNR1 , was identified.…”

Section: Introductionmentioning

confidence: 99%

Whole-exome sequencing identifies a novel missense variant within LOXHD1 causing rare hearing loss in a Chinese family

Shen

Wang

et al. 2019

BMC Med Genet

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BackgroundDeafness, autosomal recessive 77 (DFNB77) is a rare non-syndromic hearing loss (NSHL) worldwide, which is caused by deleterious variants within lipoxygenase homology domains 1 (LOXHD1). Here we identified that a novel missense variant of LOXHD1 was associated with NSHL in a Chinese family under consanguineous marriage.Case presentationA 28-year-old woman suffered a bilateral profound NSHL. Impedance audiometry, temporal bone computerized tomography (TBCT) scans and magnetic resonance imaging-inner ear hydrography (MRI-IEH) did not find any obvious abnormality of middle or inner ear. Routine genetic detection did not find pathogenic variants in common HL-associated genes. Therefore, we performed a whole-exome sequencing (WES) in this family. By trio-WES, co-segregation validation and bioinformatics analysis, we revealed that a novel homozygous variant in this patient, LOXHD1: c.5948C > T (p.S1983F), might be the pathogenic factor. Her parents (heterozygotes) and brother (wild-type) were asymptomatic.ConclusionsWe successfully identified a novel variant of LOXHD1 associated with a rare NSHL from a Chinese family. Our finds highlight the effectiveness of trio-WES for molecular diagnosis of rare NHSL, and expand the genotypic spectrum of DFNB77.Electronic supplementary materialThe online version of this article (10.1186/s12881-019-0758-2) contains supplementary material, which is available to authorized users.

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“…It should be reassuring for clinicians that over 85% of all presumably pathogenic variants were ultra-rare with observed AFs below 0.05% in bottom-up analysis. However, application of the gnomAD and ExAC filtering AF to 74 reported variants with unexpectedly high observed AFs (i.e., over our AF thresholds) allowed us to safely consider 47 variants with still high filtering AFs as not likely NSHL-related, with the notorious exception of one variant ( GJB2 c.109G > A; p.Val37Ile) 23 . Two pathogenic variants identified by the NSHL-specific ACMG guidelines were among those reclassified from “common” to “rare” by application of the filtering AF, suggesting high clinical utility and accuracy of the AF thresholds determined in this study: 0.1% for dominant genes and 0.6% for recessive genes.…”

Section: Discussionmentioning

confidence: 98%

Systematic evaluation of gene variants linked to hearing loss based on allele frequency threshold and filtering allele frequency

Rim

Lee

Jung

et al. 2019

Sci Rep

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As the number of genes identified for linkage to hearing loss has been increasing and more public databases have become available, we aimed to systematically evaluate all variants reported for nonsyndromic hearing loss (NSHL) based on their allele frequencies (AFs) in the general population. Among the 3,549 variants in 97 NSHL genes reported as pathogenic/likely pathogenic in ClinVar and HGMD, 1,618 were found in public databases (gnomAD, ExAC, EVS, and 1000G). To evaluate the pathogenicity of these variants, we employed AF thresholds and NSHL-optimized ACMG guidelines. AF thresholds were determined using a high-resolution variant frequency framework and Hardy-Weinberg equilibrium calculation: 0.6% and 0.1% for recessive and dominant genes, respectively. Filtering AFs of variants linked to NSHL were obtained based on AFs reported in gnomAD and ExAC. We found that 48 variants in 23 genes had filtering AFs above the suggested thresholds and assumed that these variants might be benign based on their filtering AFs. 47 variants, except for one notorious high-frequency GJB2 mutation (c.109G > A; p.Val37Ile), were confirmed to be benign/likely benign by the NSHL-optimized ACMG guidelines. The proposed systematic approach will aid in precise evaluation of NSHL variant pathogenicity in the context of filtering AFs, AF thresholds, and NSHL-specific ACMG guidelines, thus improving NSHL diagnostics.

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Association between the p.V37I variant of GJB2 and hearing loss: a pedigree and meta-analysis

Cited by 21 publications

References 43 publications

Hereditary bilateral sudden sensorineural hearing loss

Hereditary bilateral sudden sensorineural hearing loss

Whole-exome sequencing identifies a novel missense variant within LOXHD1 causing rare hearing loss in a Chinese family

Systematic evaluation of gene variants linked to hearing loss based on allele frequency threshold and filtering allele frequency

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