2022
Outer hair cell function is normal in βV spectrin knockout mice
Stankewich MC, Bai JP, Stabach PR, Khan S, Tan WJT, Surguchev A, Song L, Morrow JS, Santos-Sacchi J, Navaratnam DS. Outer hair cell function is normal in βV spectrin knockout mice. Hearing Research 2022, 423: 108564. PMID: 35864018, DOI: 10.1016/j.heares.2022.108564.Peer-Reviewed Original ResearchConceptsOuter hair cellsAuditory brainstem response wavesAuditory thresholdOuter hair cell functionSpiral ganglion neuronsEfferent nerve fibersHair cell functionNumber of afferentsGanglion neuronsNerve fibersKnockout miceNeuronal structuresMiceHair cellsCell functionElectromechanical activityPutative roleType IOngoing investigationExon deletionsSynaptopathyAfferentsData supportResponse wavesNeurons
2021
Genes related to SNPs identified by Genome-wide association studies of age-related hearing loss show restriction to specific cell types in the adult mouse cochlea
Xue N, Song L, Song Q, Santos-Sacchi J, Wu H, Navaratnam D. Genes related to SNPs identified by Genome-wide association studies of age-related hearing loss show restriction to specific cell types in the adult mouse cochlea. Hearing Research 2021, 410: 108347. PMID: 34536825, DOI: 10.1016/j.heares.2021.108347.Peer-Reviewed Original ResearchConceptsSingle-cell RNA sequencingApical cell polarityGenome-wide association studiesAdult mouse cochleaSpecific cell typesCell polaritySubtypes of cellsSignificant genetic componentSingle nucleotide polymorphismsVesicle recyclingRNA sequencingAssociation studiesGenesVarying ExpressionCell typesGenetic componentNucleotide polymorphismsSNPsMouse cochleaCell functionGenesetsHair cellsHair cell functionSignificant overlapExpression
2019
Hearing consequences in Gjb2 knock-in mice: implications for human p.V37I mutation
Lin X, Li G, Zhang Y, Zhao J, Lu J, Gao Y, Liu H, Li G, Yang T, Song L, Wu H. Hearing consequences in Gjb2 knock-in mice: implications for human p.V37I mutation. Aging 2019, 11: 7416-7441. PMID: 31562289, PMCID: PMC6782001, DOI: 10.18632/aging.102246.Peer-Reviewed Original ResearchConceptsHomozygous miceLate-onset progressive hearing lossV37I mutationABR wave I latencySpiral ganglion neuron lossOuter hair cell functionSignificant hair cell lossMiddle ear injectionStria vascularis atrophyWave I latencyABR threshold elevationsProgressive hearing lossHair cell lossHair cell functionEnvironmental insultsI latencyNeuron lossCochlear pathologyHearing lossEar injectionMouse modelCell lossNoise exposureSystemic applicationThreshold elevationCellular Differences in the Cochlea of CBA and B6 Mice May Underlie Their Difference in Susceptibility to Hearing Loss
Liu H, Li G, Lu J, Gao Y, Song L, Li G, Wu H. Cellular Differences in the Cochlea of CBA and B6 Mice May Underlie Their Difference in Susceptibility to Hearing Loss. Frontiers In Cellular Neuroscience 2019, 13: 60. PMID: 30873008, PMCID: PMC6400987, DOI: 10.3389/fncel.2019.00060.Peer-Reviewed Original ResearchInner hair cellsEarly-onset hearing lossB6 miceOnset hearing lossHearing lossRibbon synapsesOuter hair cell functionMouse strainsCBA/CaJ miceWave I latencySpiral ganglion neuronsSynaptic vesiclesHair cell functionCellular differencesStable hearingSimilar hearing thresholdsI latencyABR thresholdGanglion neuronsGlutamate toxicityHearing thresholdsWave IMiceHair cellsCell function
2012
Cell degeneration is not a primary causer for Connexin26 (GJB2) deficiency associated hearing loss
Liang C, Zhu Y, Zong L, Lu G, Zhao H. Cell degeneration is not a primary causer for Connexin26 (GJB2) deficiency associated hearing loss. Neuroscience Letters 2012, 528: 36-41. PMID: 22975134, PMCID: PMC3467974, DOI: 10.1016/j.neulet.2012.08.085.Peer-Reviewed Original ResearchConceptsHair cell lossAuditory brainstem responseCell degenerationCell lossNeuron degenerationPostnatal developmentCx26 deficiencyCochlear hair cell lossSpiral ganglion neuron degenerationDevelopment disordersCx26 knockout miceHair cellsHair cell functionOuter hair cellsSG neuronsNonsyndromic hearing lossKO miceBrainstem responseCochlear cellsHearing lossBasal turnMouse modelKnockout miceCongenital deafnessSignificant degeneration
2011
Extracellular chloride regulation of Kv2.1, contributor to the major outward Kv current in mammalian outer hair cells
Li X, Surguchev A, Bian S, Navaratnam D, Santos-Sacchi J. Extracellular chloride regulation of Kv2.1, contributor to the major outward Kv current in mammalian outer hair cells. American Journal Of Physiology - Cell Physiology 2011, 302: c296-c306. PMID: 21940671, PMCID: PMC4054960, DOI: 10.1152/ajpcell.00177.2011.Peer-Reviewed Original Research
2006
Hair Cells – Beyond the Transducer
Housley GD, Marcotti W, Navaratnam D, Yamoah EN. Hair Cells – Beyond the Transducer. The Journal Of Membrane Biology 2006, 209: 89. PMID: 16773496, DOI: 10.1007/s00232-005-0835-7.BooksConceptsHair cell developmentHair cellsHair cell physiologySensory hair cellsOuter hair cell electromotilityMolecular physiologyHair cell electromotilityCell physiologyCell developmentPhysiological functionsMechanoelectrical transductionIon channelsBiophysical statusCell functionTransductionNeurotransmitter releaseHair cell functionPhysiologyCellsConsiderable arrayBroad dynamic rangeReview seriesMembrane conductanceElectromotilityPathway
2001
α10: A determinant of nicotinic cholinergic receptor function in mammalian vestibular and cochlear mechanosensory hair cells
Elgoyhen A, Vetter D, Katz E, Rothlin C, Heinemann S, Boulter J. α10: A determinant of nicotinic cholinergic receptor function in mammalian vestibular and cochlear mechanosensory hair cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2001, 98: 3501-3506. PMID: 11248107, PMCID: PMC30682, DOI: 10.1073/pnas.051622798.Peer-Reviewed Original ResearchConceptsHair cellsMechanosensory hair cellsCholinergic receptor functionAgonist-mediated desensitizationHair cell functionAlpha9 nAChREfferent modulationHeteromeric nAChRsAlpha9alpha10 nAChRsPharmacological profileBiphasic responseMammalian vestibularReceptor functionAlpha10 subunitsNAChRsCell functionAlpha9Xenopus laevis oocytesCurrent-voltage relationshipVertebrate hair cellsSubunit geneLaevis oocytesAlpha10CellsAlpha9alpha10
1997
Mapping the distribution of outer hair cell voltage-dependent conductances by electrical amputation
Santos-Sacchi J, Huang GJ, Wu M. Mapping the distribution of outer hair cell voltage-dependent conductances by electrical amputation. Biophysical Journal 1997, 73: 1424-1429. PMID: 9284309, PMCID: PMC1181041, DOI: 10.1016/s0006-3495(97)78174-8.Peer-Reviewed Original ResearchConceptsLateral membranesVoltage magnitudeElectrical techniquesAcoustic frequencyKilohertz rangeOuter hair cell functionVoltage-dependent conductancesVoltage sensorPlasma membraneHair cell functionMechanical effectorsSynaptic poleVoltage-dependent currentsMembrane moleculesAuditory functionDense populationCell functionCable propertiesCochlear amplifierOHC motilitySensory receptors
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