A deafness mechanism of digenic Cx26 (GJB2) and Cx30 (GJB6) mutations: Reduction of endocochlear potential by impairment of heterogeneous gap junctional function in the cochlear lateral wall

Mei, Ling; Chen, Jin; Zong, Lei; Zhu, Yan; Liang, Chun; Jones, Raleigh O.; Zhao, Hong-Bo

doi:10.1016/j.nbd.2017.08.002

Cited by 52 publications

(70 citation statements)

References 55 publications

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“…Homozygous deletion of GJB6 , although rare, was found in one proband and another relative of a proband in our study which results in severe to profound HL, similar to the mouse model (Chen et al, ; Marziano, Casalotti, Portelli, Becker, & Forge, ; Mei et al, ). Unlike in humans, the GJB2/GJB6 double heterozygous mice also show decreased endocochlear potential but have moderate HL (Mei et al, ; Teubner et al, ).…”

Section: Discussionsupporting

confidence: 85%

Analyses of del(GJB6‐D13S1830) and del(GJB6‐D13S1834) deletions in a large cohort with hearing loss: Caveats to interpretation of molecular test results in multiplex families

Pandya

O’Brien

Kovasala

et al. 2020

Molec Gen & Gen Med

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Background Mutations involving the closely linked GJB2 and GJB6 at the DFNB1 locus are a common genetic cause of profound congenital hearing loss in many populations. In some deaf GJB2 heterozygotes, a 309 kb deletion involving the GJB6 has been found to be the cause for hearing loss when inherited in trans to a GJB2 mutation. Methods We screened 2,376 probands from a National DNA Repository of deaf individuals. Results Fifty‐two of 318 heterozygous probands with pathogenic GJB2 sequence variants had a GJB6 deletion. Additionally, eight probands had an isolated heterozygous GJB6 deletion that did not explain their hearing loss. In two deaf subjects, including one proband, a homozygous GJB6 deletion was the cause for their hearing loss, a rare occurrence not reported to date. Conclusion This study represents the largest US cohort of deaf individuals harboring GJB2 and GJB6 variants, including unique subsets of families with deaf parents. Testing additional members to clarify the phase of GJB2/GJB6 variants in multiplex families was crucial in interpreting clinical significance of the variants in the proband. It highlights the importance of determining the phase of GJB2/GJB6 variants when interpreting molecular test results especially in multiplex families with assortative mating.

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Section: Discussionsupporting

confidence: 85%

Analyses of del(GJB6‐D13S1830) and del(GJB6‐D13S1834) deletions in a large cohort with hearing loss: Caveats to interpretation of molecular test results in multiplex families

Pandya

O’Brien

Kovasala

et al. 2020

Molec Gen & Gen Med

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“…The contribution of neurocristopathies to hearing loss is a developing area of research (Hao et al, 2014;Locher et al, 2015;Shibata et al, 2016;Ritter and Martin, 2019). Another example of hearing loss where multiple cell types may be affected includes Connexin 26 and 30 encoded by Gjb2 and Gjb6, respectively, which appear to be expressed in intermediate and basal cells and, to a lesser extent, marginal cells ( Figure 10) (Lang et al, 2007;Nickel and Forge, 2008;Liu et al, 2009;Mei et al, 2017). These data reveal expression of a subset of human deafness genes in SV cell types and define potential opportunities for further investigation into the function of these genes in the SV.…”

Section: Deafness Gene Mapping Suggests a Role For Sv Cell Types In Hmentioning

confidence: 99%

Single Cell and Single Nucleus RNA-Seq Reveal Cellular Heterogeneity and Homeostatic Regulatory Networks in Adult Mouse Stria Vascularis

Korrapati

Taukulis

Olszewski

et al. 2019

Front. Mol. Neurosci.

128

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The stria vascularis (SV) generates the endocochlear potential (EP) in the inner ear and is necessary for proper hair cell mechanotransduction and hearing. While channels belonging to SV cell types are known to play crucial roles in EP generation, relatively little is known about gene regulatory networks that underlie the ability of the SV to generate and maintain the EP. Using single cell and single nucleus RNA-sequencing, we identify and validate known and rare cell populations in the SV. Furthermore, we establish a basis for understanding molecular mechanisms underlying SV function by identifying potential gene regulatory networks as well as druggable gene targets. Finally, we associate known deafness genes with adult SV cell types. This work establishes a basis for dissecting the genetic mechanisms underlying the role of the SV in hearing and will serve as a basis for designing therapeutic approaches to hearing loss related to SV dysfunction.

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“…The contribution of neurocristopathies to hearing loss is a developing area of research (Hao et al, 2014;Locher et al, 2015;Ritter & Martin, 2019;Shibata et al, 2016). Another example of hearing loss where multiple cell types may be affected includes Connexin 26 and 30 encoded by Gjb2 and Gjb6, respectively, which appear to be expressed in intermediate and basal cells and, to a lesser extent, marginal cells ( Figure 10) (W. Liu, Boström, Kinnefors, & Rask-Andersen, 2009;Mei et al, 2017). These data reveal expression of a subset of human deafness genes in SV cell types and define potential opportunities for further investigation into the function of these genes in the SV.…”

Section: Deafness Gene Mapping Suggests a Role For Sv Cell Types In Hmentioning

confidence: 99%

“…Mutations in Gjb2 and Gjb6 followed by digenic mutations in these genes are among the most common causes of nonsyndromic autosomal recessive sensorineural hearing loss (SNHL) in many populations across the world (Mei et al, 2017;Nickel & Forge, 2008). Mei and colleagues demonstrate that the loss of Gjb2 and Gjb6 in the stria vascularis and lateral wall result in a loss of EP and hearing loss while the loss of Gjb2 and Gjb6 in cochlear supporting cells does not (Mei et al, 2017). These data identify the loss of these genes in the SV as principal drivers of hearing loss in digenic Gjb2 and Gjb6 mutations.…”

Section: Implications For Targeting Gene Therapy To Sv Cell Typesmentioning

confidence: 99%

Single cell and single nucleus RNA-Seq reveal cellular heterogeneity and homeostatic regulatory networks in adult mouse stria vascularis

Korrapati

Taukulis

Olszewski

et al. 2019

Preprint

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A deafness mechanism of digenic Cx26 (GJB2) and Cx30 (GJB6) mutations: Reduction of endocochlear potential by impairment of heterogeneous gap junctional function in the cochlear lateral wall

Cited by 52 publications

References 55 publications

Analyses of del(GJB6‐D13S1830) and del(GJB6‐D13S1834) deletions in a large cohort with hearing loss: Caveats to interpretation of molecular test results in multiplex families

Analyses of del(GJB6‐D13S1830) and del(GJB6‐D13S1834) deletions in a large cohort with hearing loss: Caveats to interpretation of molecular test results in multiplex families

Single Cell and Single Nucleus RNA-Seq Reveal Cellular Heterogeneity and Homeostatic Regulatory Networks in Adult Mouse Stria Vascularis

Single cell and single nucleus RNA-Seq reveal cellular heterogeneity and homeostatic regulatory networks in adult mouse stria vascularis

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