Literature DB >> 15700112

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

Tomohiro Oguchi1, Akihiro Ohtsuka1, Shigenari Hashimoto1, Aki Oshima1, Satoko Abe2, Yumiko Kobayashi3, Kyoko Nagai4, Tatsuo Matsunaga5, Satoshi Iwasaki6, Takashi Nakagawa7, Shin-Ichi Usami8.   

Abstract

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

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Year:  2005        PMID: 15700112     DOI: 10.1007/s10038-004-0223-7

Source DB:  PubMed          Journal:  J Hum Genet        ISSN: 1434-5161            Impact factor:   3.172


  30 in total

1.  A Two-stage bipodal screening model for universal neonatal hearing screening.

Authors:  P J Govaerts; M Yperman; G De Ceulaer; K Daemers; K Van Driessche; T Somers; F E Offeciers
Journal:  Otol Neurotol       Date:  2001-11       Impact factor: 2.311

2.  High frequency hearing loss correlated with mutations in the GJB2 gene.

Authors:  S A Wilcox; K Saunders; A H Osborn; A Arnold; J Wunderlich; T Kelly; V Collins; L J Wilcox; R J McKinlay Gardner; M Kamarinos; B Cone-Wesson; R Williamson; H H Dahl
Journal:  Hum Genet       Date:  2000-04       Impact factor: 4.132

3.  Successful cochlear implantation in prelingual profound deafness resulting from the common 233delC mutation of the GJB2 gene in the Japanese.

Authors:  Naoki Matsushiro; Katsumi Doi; Yuka Fuse; Kenichi Nagai; Koichi Yamamoto; Takako Iwaki; Takayuki Kawashima; Ayako Sawada; Hiroshi Hibino; Takeshi Kubo
Journal:  Laryngoscope       Date:  2002-02       Impact factor: 3.325

4.  The Colorado newborn hearing screening project, 1992-1999: on the threshold of effective population-based universal newborn hearing screening.

Authors:  Albert L Mehl; Vickie Thomson
Journal:  Pediatrics       Date:  2002-01       Impact factor: 7.124

5.  Novel mutations in the connexin 26 gene (GJB2) responsible for childhood deafness in the Japanese population.

Authors:  T Kudo; K Ikeda; S Kure; Y Matsubara; T Oshima; K i Watanabe; T Kawase; K Narisawa; T Takasaka
Journal:  Am J Med Genet       Date:  2000-01-17

6.  Clinical studies of families with hearing loss attributable to mutations in the connexin 26 gene (GJB2/DFNB1)

Authors:  E S Cohn; P M Kelley; T W Fowler; M P Gorga; D M Lefkowitz; H J Kuehn; G B Schaefer; L S Gobar; F J Hahn; D J Harris; W J Kimberling
Journal:  Pediatrics       Date:  1999-03       Impact factor: 7.124

7.  Language of early- and later-identified children with hearing loss.

Authors:  C Yoshinaga-Itano; A L Sedey; D K Coulter; A L Mehl
Journal:  Pediatrics       Date:  1998-11       Impact factor: 7.124

8.  GJB2 deafness gene shows a specific spectrum of mutations in Japan, including a frequent founder mutation.

Authors:  Akihiro Ohtsuka; Isamu Yuge; Shinobu Kimura; Atsushi Namba; Satoko Abe; Lut Van Laer; Guy Van Camp; Shin-ichi Usami
Journal:  Hum Genet       Date:  2003-01-31       Impact factor: 4.132

9.  A genotype-phenotype correlation for GJB2 (connexin 26) deafness.

Authors:  K Cryns; E Orzan; A Murgia; P L M Huygen; F Moreno; I del Castillo; G Parker Chamberlin; H Azaiez; S Prasad; R A Cucci; E Leonardi; R L Snoeckx; P J Govaerts; P H Van de Heyning; C M Van de Heyning; R J H Smith; G Van Camp
Journal:  J Med Genet       Date:  2004-03       Impact factor: 6.318

10.  Loss-of-function and residual channel activity of connexin26 mutations associated with non-syndromic deafness.

Authors:  R Bruzzone; V Veronesi; D Gomès; M Bicego; N Duval; S Marlin; C Petit; P D'Andrea; T W White
Journal:  FEBS Lett       Date:  2003-01-02       Impact factor: 4.124
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  24 in total

1.  A low-cost exon capture method suitable for large-scale screening of genetic deafness by the massively-parallel sequencing approach.

Authors:  Wenxue Tang; Dong Qian; Shoeb Ahmad; Douglas Mattox; N Wendell Todd; Harrison Han; Shouting Huang; Yuhua Li; Yunfeng Wang; Huawei Li; Xi Lin
Journal:  Genet Test Mol Biomarkers       Date:  2012-04-05

2.  DNA sequence analysis of GJB2, encoding connexin 26: observations from a population of hearing impaired cases and variable carrier rates, complex genotypes, and ethnic stratification of alleles among controls.

Authors:  Hsiao-Yuan Tang; Ping Fang; Patricia A Ward; Eric Schmitt; Sandra Darilek; Spiros Manolidis; John S Oghalai; Benjamin B Roa; Raye Lynn Alford
Journal:  Am J Med Genet A       Date:  2006-11-15       Impact factor: 2.802

3.  Cochleosaccular dysplasia associated with a connexin 26 mutation in keratitis-ichthyosis-deafness syndrome.

Authors:  Andrew J Griffith; Yandan Yang; Shannon P Pryor; Hong-Joon Park; Ethylin Wang Jabs; Joseph B Nadol; Laura J Russell; Daniel I Wasserman; Gabriele Richard; Joe C Adams; Saumil N Merchant
Journal:  Laryngoscope       Date:  2006-08       Impact factor: 3.325

4.  Calcium interactions with Cx26 hemmichannel: Spatial association between MD simulations biding sites and variant pathogenicity.

Authors:  Juan M R Albano; Nahuel Mussini; Roxana Toriano; Julio C Facelli; Marta B Ferraro; Mónica Pickholz
Journal:  Comput Biol Chem       Date:  2018-11-12       Impact factor: 2.877

5.  Carrier frequency of GJB2 (connexin-26) mutations causing inherited deafness in the Korean population.

Authors:  Sung-Hee Han; Hong-Joon Park; Eun-Joo Kang; Jae-Song Ryu; Anna Lee; Young-Ho Yang; Kyoung-Ryul Lee
Journal:  J Hum Genet       Date:  2008-12-02       Impact factor: 3.172

6.  A novel connexin50 mutation associated with congenital nuclear pulverulent cataracts.

Authors:  A Arora; P J Minogue; X Liu; P K Addison; I Russel-Eggitt; A R Webster; D M Hunt; L Ebihara; E C Beyer; V M Berthoud; A T Moore
Journal:  J Med Genet       Date:  2007-11-15       Impact factor: 6.318

7.  Homozygosity for the V37I GJB2 mutation in fifteen probands with mild to moderate sensorineural hearing impairment: further confirmation of pathogenicity and haplotype analysis in Asian populations.

Authors:  Emily Gallant; Lauren Francey; Ellen A Tsai; Micah Berman; Yaru Zhao; Heather Fetting; Maninder Kaur; Matthew A Deardorff; Alisha Wilkens; Dinah Clark; Hakon Hakonarson; Heidi L Rehm; Ian D Krantz
Journal:  Am J Med Genet A       Date:  2013-07-19       Impact factor: 2.802

8.  A study of deafness-related genetic mutations as a basis for strategies to prevent hereditary hearing loss in Hebei, China.

Authors:  Junzhen Zhu; Qinying Cao; Ning Zhang; Jun Ge; Donglan Sun; Qingqi Feng
Journal:  Intractable Rare Dis Res       Date:  2015-08

9.  Identification and genotype/phenotype correlation of mutations in a large German cohort with hearing loss.

Authors:  Christopher Beck; Jose Carmelo Pérez-Álvarez; Alexander Sigruener; Frank Haubner; Till Seidler; Charalampos Aslanidis; Jürgen Strutz; Gerd Schmitz
Journal:  Eur Arch Otorhinolaryngol       Date:  2014-09-12       Impact factor: 2.503

10.  Loss-of-function GJA12/Connexin47 mutations cause Pelizaeus-Merzbacher-like disease.

Authors:  Jennifer L Orthmann-Murphy; Alan D Enriquez; Charles K Abrams; Steven S Scherer
Journal:  Mol Cell Neurosci       Date:  2007-01-25       Impact factor: 4.314
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