2021
Efferent feedback controls bilateral auditory spontaneous activity
Wang Y, Sanghvi M, Gribizis A, Zhang Y, Song L, Morley B, Barson DG, Santos-Sacchi J, Navaratnam D, Crair M. Efferent feedback controls bilateral auditory spontaneous activity. Nature Communications 2021, 12: 2449. PMID: 33907194, PMCID: PMC8079389, DOI: 10.1038/s41467-021-22796-8.Peer-Reviewed Original ResearchConceptsSpontaneous activityEfferent modulationEfferent pathwaysMedial olivocochlear systemCentral nervous systemCentral auditory systemInner hair cellsAuditory systemNicotinic acetylcholine receptorsSpontaneous activity patternsOlivocochlear systemHearing onsetEfferent systemChemogenetic experimentsBilateral couplingNervous systemAcetylcholine receptorsCircuit formationEfferent feedbackFiring patternsHair cellsΑ9/Auditory sensitivityBilateral correlationActivity patterns
2019
Prestin kinetics and corresponding frequency dependence augment during early development of the outer hair cell within the mouse organ of Corti
Bai JP, Navaratnam D, Santos-Sacchi J. Prestin kinetics and corresponding frequency dependence augment during early development of the outer hair cell within the mouse organ of Corti. Scientific Reports 2019, 9: 16460. PMID: 31712635, PMCID: PMC6848539, DOI: 10.1038/s41598-019-52965-1.Peer-Reviewed Original ResearchConceptsOuter hair cellsPostnatal dayVoltage-sensor charge movementAltricial animalsPostnatal developmentCochlear placeElectrical correlatesHair cellsMouse organsCochlear amplificationEarly developmentAuditory frequencyPrestin activityAuditory capabilitiesCellsCharge movementHigh frequencyResponse increasesPrestin functionMiceActivityMonthsCourse
2015
Auditory Pathology in a Transgenic mtTFB1 Mouse Model of Mitochondrial Deafness
McKay SE, Yan W, Nouws J, Thormann MJ, Raimundo N, Khan A, Santos-Sacchi J, Song L, Shadel GS. Auditory Pathology in a Transgenic mtTFB1 Mouse Model of Mitochondrial Deafness. American Journal Of Pathology 2015, 185: 3132-3140. PMID: 26552864, PMCID: PMC5801480, DOI: 10.1016/j.ajpath.2015.08.014.Peer-Reviewed Original ResearchMeSH KeywordsAMP-Activated Protein KinasesAnimalsApoptosisDeafnessDisease Models, AnimalDNA, MitochondrialEvoked Potentials, Auditory, Brain StemHair Cells, Auditory, InnerMice, Inbred C57BLMice, KnockoutMice, TransgenicMitochondrial DiseasesMutationOrgan of CortiReaction TimeSignal TransductionSpiral GanglionStria VascularisTranscription FactorsConceptsAMP kinaseReactive oxygen species-mediated activationTranscription factor E2F1A1555G mutationAuditory pathologyHair cellsTFB1MHearing loss phenotypeRRNA geneAMPK-α1AMPK activityProlonged wave I latencyLoss phenotypeMitochondrial pathologyNonsyndromic deafnessTransgenic mouse strainWave I latencySpiral ganglion neuronsProgressive hearing lossMitochondrial deafnessPotential therapeutic valueDNA causeG mutationOuter hair cellsI latency
2007
Developmental Expression of the Outer Hair Cell Motor Prestin in the Mouse
Abe T, Kakehata S, Kitani R, Maruya S, Navaratnam D, Santos-Sacchi J, Shinkawa H. Developmental Expression of the Outer Hair Cell Motor Prestin in the Mouse. The Journal Of Membrane Biology 2007, 215: 49-56. PMID: 17415610, PMCID: PMC4154540, DOI: 10.1007/s00232-007-9004-5.Peer-Reviewed Original ResearchConceptsLateral membranesOuter hair cellsMouse outer hair cellsMotor protein activitySteady-state levelsKnockout experimentsProtein activityDevelopmental expressionMembrane tensionGenetic modificationConformational fluctuationsCellular mechanismsMotor moleculesMolecular motorsOnset of hearingMorphological estimatesProtein densityEarly maturationQuantitative polymerase chain reactionHair cellsVpkCmDevelopmental dataCochlear amplificationMaturationFull maturation