2017
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 L, Chen J, Zong L, Zhu Y, Liang C, Jones R, Zhao H. 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. Neurobiology Of Disease 2017, 108: 195-203. PMID: 28823936, PMCID: PMC5675824, DOI: 10.1016/j.nbd.2017.08.002.Peer-Reviewed Original ResearchConceptsCochlear lateral wallEndocochlear potentialHearing lossGap junctional functionDeafness mechanismLateral wallHeterozygous miceCx30 mutationsHair cell degenerationHomozygous knockout miceJunctional functionHeterozygous mouse modelGap junctionsOrgan of CortiSame gap junctional plaquesEP reductionFrequent causePathological changesMouse modelKnockout miceReceptor currentsCell degenerationNormal hearingHeterozygous mutationsMice
2015
Connexin26 gap junction mediates miRNA intercellular genetic communication in the cochlea and is required for inner ear development
Zhu Y, Zong L, Mei L, Zhao H. Connexin26 gap junction mediates miRNA intercellular genetic communication in the cochlea and is required for inner ear development. Scientific Reports 2015, 5: 15647. PMID: 26490746, PMCID: PMC4614881, DOI: 10.1038/srep15647.Peer-Reviewed Original ResearchConceptsGenetic communicationOrgan developmentInner ear gap junctionsIntercellular communicationGap junctionsCochlear developmentInner ear developmentNon-coding RNAsCx26 knockout miceEar developmentGene expressionIntercellular transferCx26 deficiencyMiR-96 expressionCx30 deficiencyDevelopmental disordersPredominant isoformCell proliferationDeletionCx26Critical roleKnockout miceExpressionMiRNAsMicroRNAs
2014
Connexin26 (GJB2) deficiency reduces active cochlear amplification leading to late-onset hearing loss
Zhu Y, Chen J, Liang C, Zong L, Chen J, Jones R, Zhao H. Connexin26 (GJB2) deficiency reduces active cochlear amplification leading to late-onset hearing loss. Neuroscience 2014, 284: 719-729. PMID: 25451287, PMCID: PMC4268423, DOI: 10.1016/j.neuroscience.2014.10.061.Peer-Reviewed Original ResearchConceptsLate-onset hearing lossActive cochlear amplificationDistortion product otoacoustic emissionsHearing lossNonsyndromic hearing lossTherapeutic interventionsProgressive hearing lossHair cell lossPostnatal day 5Cochlear amplificationProduct otoacoustic emissionsConditional knockout miceKnockout miceClinical observationsDay 5Cell lossEndocochlear potentialOtoacoustic emissionsNormal hearingCx26 expressionDeafness mechanismMiceCx26 deficiencyCochleaIntervention
2008
Cellular characterization of Connexin26 and Connnexin30 expression in the cochlear lateral wall
Liu Y, Zhao H. Cellular characterization of Connexin26 and Connnexin30 expression in the cochlear lateral wall. Cell And Tissue Research 2008, 333: 395. PMID: 18581144, PMCID: PMC2548271, DOI: 10.1007/s00441-008-0641-5.Peer-Reviewed Original Research
2006
Distinct and gradient distributions of connexin26 and connexin30 in the cochlear sensory epithelium of guinea pigs
Zhao H, Yu N. Distinct and gradient distributions of connexin26 and connexin30 in the cochlear sensory epithelium of guinea pigs. The Journal Of Comparative Neurology 2006, 499: 506-518. PMID: 16998915, PMCID: PMC2553046, DOI: 10.1002/cne.21113.Peer-Reviewed Original ResearchConceptsCochlear sensory epitheliumSensory epitheliumGuinea pigsHensen's cellsDeiters' cellsSpiral ganglion neuronsPillar cellsExpression of Cx26Auditory sensory epitheliumDistinct cellular expressionGanglion neuronsCochlear apexCx26 labelingCell bodiesCx26 expressionImmunofluorescent stainingEpitheliumHair cellsCellular expressionCx30Dense labelingClaudius cellsCell preparationsPredominant isoformCellular distribution