Search results for "Stereocilia"

showing 9 items of 9 documents

Evaluation of Planar-Cell-Polarity Phenotypes in Ciliopathy Mouse Mutant Cochlea

2016

In recent years, primary cilia have emerged as key regulators in development and disease by influencing numerous signaling pathways. One of the earliest signaling pathways shown to be associated with ciliary function was the non-canonical Wnt signaling pathway, also referred to as planar cell polarity (PCP) signaling. One of the best places in which to study the effects of planar cell polarity (PCP) signaling during vertebrate development is the mammalian cochlea. PCP signaling disruption in the mouse cochlea disrupts cochlear outgrowth, cellular patterning and hair cell orientation, all of which are affected by cilia dysfunction. The goal of this protocol is to describe the analysis of PCP…

0301 basic medicineCell signalingGeneral Chemical EngineeringStereocilia (inner ear)Cochlear ductBiologyGeneral Biochemistry Genetics and Molecular BiologyStereociliaMice03 medical and health sciencesHair Cells AuditorymedicineAnimalsCochleaGeneral Immunology and MicrobiologyGeneral NeuroscienceCiliumWnt signaling pathwayCell PolarityCochlear DuctEmbryo Mammalianmedicine.diseaseImmunohistochemistryCiliopathiesCochleaCell biologyDisease Models AnimalCiliopathyPhenotype030104 developmental biologymedicine.anatomical_structureMicroscopy Electron ScanningMedicinesense organsHair cellSignal TransductionJournal of Visualized Experiments
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Cadherin 23 is a component of the transient lateral links in the developing hair bundles of cochlear sensory cells

2005

AbstractCadherin 23 is required for normal development of the sensory hair bundle, and recent evidence suggests it is a component of the tip links, filamentous structures thought to gate the hair cells' mechano-electrical transducer channels. Antibodies against unique peptide epitopes were used to study the properties of cadherin 23 and its spatio-temporal expression patterns in developing cochlear hair cells. In the rat, intra- and extracellular domain epitopes are readily detected in the developing hair bundle between E18 and P5, and become progressively restricted to the distal tip of the hair bundle. From P13 onwards, these epitopes are no longer detected in hair bundles, but immunoreac…

CytoplasmTime FactorsStereocilia (inner ear)EpitopesMice0302 clinical medicineCDH23Inner earMicroscopy ImmunoelectronEgtazic AcidCells Cultured0303 health sciencesintegumentary systemReverse Transcriptase Polymerase Chain ReactionGene Expression Regulation DevelopmentalAnatomyCadherinsHair bundleImmunohistochemistryCochleaCell biologymedicine.anatomical_structureEctodomainHair cellHair cellTransduction (physiology)Signal TransductionMechano-electrical transductionDevelopmentBiologyStereocilia03 medical and health sciencesLanthanumCadherin 23Hair Cells Auditoryotorhinolaryngologic diseasesmedicineAnimalsMolecular BiologyTip link030304 developmental biologyModels GeneticCadherinSubtilisinCell BiologyProtein Structure TertiaryRatsMicroscopy ElectronMicroscopy FluorescenceEar InnerIndicators and Reagentssense organsTip linkLateral linksUsher type 1 syndrome030217 neurology & neurosurgeryPCDH15Developmental BiologyDevelopmental Biology
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Myosin VIIa, harmonin and cadherin 23, three Usher I gene products that cooperate to shape the sensory hair cell bundle

2002

Deaf-blindness in three distinct genetic forms of Usher type I syndrome (USH1) is caused by defects in myosin VIIa, harmonin and cadherin 23. Despite being critical for hearing, the functions of these proteins in the inner ear remain elusive. Here we show that harmonin, a PDZ domain-containing protein, and cadherin 23 are both present in the growing stereocilia and that they bind to each other. Moreover, we demonstrate that harmonin b is an F-actin-bundling protein, which is thus likely to anchor cadherin 23 to the stereocilia microfilaments, thereby identifying a novel anchorage mode of the cadherins to the actin cytoskeleton. Moreover, harmonin b interacts directly with myosin VIIa, and i…

DNA ComplementaryCadherin Related ProteinsCell Cycle Proteinsmacromolecular substancesMyosinsBiologyTransfectionMicrofilamentGeneral Biochemistry Genetics and Molecular BiologyCell LineMiceCDH23Two-Hybrid System TechniquesHair Cells Auditoryotorhinolaryngologic diseasesmedicineAnimalsHumansProtein IsoformsRats WistarMolecular BiologyActinAdaptor Proteins Signal TransducingGene LibraryGeneral Immunology and MicrobiologyCadherinGeneral NeuroscienceStereociliaDyneinsCell DifferentiationArticlesCadherinsActin cytoskeletonActinsProtein Structure TertiaryRatsCell biologyCytoskeletal ProteinsMicroscopy Electronmedicine.anatomical_structureMicroscopy FluorescenceMyosin VIIasense organsCarrier ProteinsTip linkPCDH15HeLa CellsProtein BindingThe EMBO Journal
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Deletion of myosin VI causes slow retinal optic neuropathy and age-related macular degeneration (AMD)-relevant retinal phenotype

2015

The unconventional myosin VI, a member of the actin-based motor protein family of myosins, is expressed in the retina. Its deletion was previously shown to reduce amplitudes of the a- and b-waves of the electroretinogram. Analyzing wild-type and myosin VI-deficient Snell’s Waltzer mice in more detail, the expression pattern of myosin VI in retinal pigment epithelium, outer limiting membrane, and outer plexiform layer could be linked with differential progressing ocular deficits. These encompassed reduced a-waves and b-waves and disturbed oscillatory potentials in the electroretinogram, photoreceptor cell death, retinal microglia infiltration, and formation of basal laminar deposits. A pheno…

Genotypegenetic structuresOuter retinaTranslocator protein TSPOOuter plexiform layermacromolecular substancesBiologyRetinaPhotoreceptor cellMouse modelStereociliaMacular DegenerationMiceCellular and Molecular Neurosciencechemistry.chemical_compoundOptic Nerve DiseasesMyosinmedicineAnimalsBipolar cellMolecular BiologyPharmacologyRetinaRetinal pigment epitheliumMyosin Heavy ChainsNeurodegenerationInner retinaChoriocapillarisRetinalCell BiologyAnatomyMacular degenerationmedicine.diseaseSynapseeye diseasesCell biologyMice Inbred C57BLmedicine.anatomical_structurechemistryMolecular MedicineMicrogliasense organsGene DeletionResearch ArticlePhotoreceptor Cells VertebrateCellular and Molecular Life Sciences
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Vezatin, a novel transmembrane protein, bridges myosin VIIA to the cadherin-catenins complex

2000

International audience; Defects in myosin VIIA are responsible for deafness in the human and mouse. The role of this unconventional myosin in the sensory hair cells of the inner ear is not yet understood. Here we show that the C-terminal FERM domain of myosin VIIA binds to a novel transmembrane protein, vezatin, which we identi®ed by a yeast two-hybrid screen. Vezatin is a ubiquitous protein of adherens cell±cell junctions, where it interacts with both myosin VIIA and the cadherin±catenins complex. Its recruitment to adherens junctions implicates the C-terminal region of a-catenin. Taken together, these data suggest that myosin VIIA, anchored by vezatin to the cadherin±catenins complex, cre…

MESH: Cytoskeletal ProteinsMESH: alpha CateninStereocilia (inner ear)[SDV]Life Sciences [q-bio]MESH: Amino Acid SequenceDeafnessMESH: CadherinsMiceMESH: Protein Structure Tertiary0302 clinical medicine[SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseasesMyosinMESH: Hair Cells AuditoryMESH: AnimalsCytoskeleton0303 health sciencesFERM domainGeneral NeuroscienceMESH: Alternative SplicingArticlesCadherinsCell biologymedicine.anatomical_structureIntercellular Junctions[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologyMyosin VIIaHair cellMESH: Membrane ProteinsMESH: DyneinsProtein BindingMESH: MutationMacromolecular SubstancesMolecular Sequence DataMESH: Deafnessmacromolecular substancesBiologyIn Vitro TechniquesMyosinsGeneral Biochemistry Genetics and Molecular BiologyCell LineAdherens junction03 medical and health sciencesHair Cells Auditorymedicineotorhinolaryngologic diseasesAnimalsHumansMESH: Myosin VIIaMESH: Protein BindingAmino Acid SequenceMolecular BiologyMESH: Mice030304 developmental biologyMESH: In Vitro TechniquesMESH: Molecular Sequence DataMESH: HumansGeneral Immunology and MicrobiologyCadherinDyneinsMembrane ProteinsMESH: Macromolecular SubstancesMESH: MyosinsActin cytoskeleton[SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/BacteriologyProtein Structure TertiaryMESH: Cell LineAlternative SplicingCytoskeletal ProteinsMutationsense organs030217 neurology & neurosurgeryalpha Catenin[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyMESH: Intercellular Junctions
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Immunoelectron microscopic localization of nitric oxide synthase III in the guinea pig organ of Corti

1998

Nitric oxide synthase III (NOS III) was identified in the guinea pig cochlea on an ultrastructural level using a post-embedding immunolabeling procedure. Ultrathin sections of London Resin (LR) White-embedded specimens were incubated with various concentrations of a commercially available antibody to NOS III and the immunoreactivity visualized by a gold-labeled secondary antibody. Analysis of ultrathin sections of the organ of Corti in the second turn of the cochlea showed that NOS III could be localized in the endothelial cells of the blood vessels under the basilar membrane, which was comparable to its location in similar cells types in various biological systems. Besides this, NOS III wa…

Pathologymedicine.medical_specialtyStereocilia (inner ear)Guinea PigsCuticular plateBiologyImmunolabelingHair Cells AuditorymedicineAnimalsMicroscopy ImmunoelectronOrgan of CortiCochleaLamina reticularisGeneral MedicineImmunohistochemistryBasilar MembraneCell biologyIsoenzymesmedicine.anatomical_structureOtorhinolaryngologyOrgan of CortiDeiters cellsEndothelium Vascularsense organsHair cellNitric Oxide SynthaseEuropean Archives of Oto-Rhino-Laryngology
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Scaffold protein harmonin (USH1C) provides molecular links between Usher syndrome type 1 and type 2.

2005

Contains fulltext : 48386.pdf (Publisher’s version ) (Closed access) Usher syndrome (USH) is the most frequent cause of combined deaf-blindness in man. USH is clinically and genetically heterogeneous with at least 11 chromosomal loci assigned to the three USH types (USH1A-G, USH2A-C, USH3A). Although the different USH types exhibit almost the same phenotype in human, the identified USH genes encode for proteins which belong to very different protein classes and families. We and others recently reported that the scaffold protein harmonin (USH1C-gene product) integrates all identified USH1 molecules in a USH1-protein network. Here, we investigated the relationship between the USH2 molecules a…

Scaffold proteinGenetics and epigenetic pathways of disease [NCMLS 6]Usher syndromeStereocilia (inner ear)Cell Cycle ProteinsBiologyInteractomeReceptors G-Protein-CoupledMiceotorhinolaryngologic diseasesGeneticsmedicineAnimalsNeurosensory disorders [UMCN 3.3]Photoreceptor CellsRats WistarMolecular BiologyGeneGenetics (clinical)Renal disorder [IGMD 9]GeneticsExtracellular Matrix ProteinsStereociliumBinding SitesHair Cells Auditory InnerSodium-Bicarbonate SymportersUsher Syndrome Type 1General Medicinemedicine.diseasePhenotypeRatsMice Inbred C57BLCytoskeletal ProteinsCarrier ProteinsUsher Syndromes
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A core cochlear phenotype in USH1 mouse mutants implicates fibrous links of the hair bundle in its cohesion, orientation and differential growth

2008

The planar polarity and staircase-like pattern of the hair bundle are essential to the mechanoelectrical transduction function of inner ear sensory cells. Mutations in genes encoding myosin VIIa, harmonin, cadherin 23,protocadherin 15 or sans cause Usher syndrome type I (USH1, characterized by congenital deafness, vestibular dysfunction and retinitis pigmentosa leading to blindness) in humans and hair bundle disorganization in mice. Whether the USH1 proteins are involved in common hair bundle morphogenetic processes is unknown. Here, we show that mouse models for the five USH1 genetic forms share hair bundle morphological defects. Hair bundle fragmentation and misorientation (25-52° mean ki…

Stereocilia (inner ear)Cadherin Related ProteinsProtocadherinCell Cycle ProteinsNerve Tissue ProteinsMyosinsBiologyMechanotransduction CellularMiceCDH23Pregnancyotorhinolaryngologic diseasesmedicineAnimalsHumansInner earProtein PrecursorsMolecular BiologyActinMice KnockoutCadherinDyneinsAnatomyCadherinsMice Mutant StrainsCochleaCell biologyCytoskeletal ProteinsDisease Models AnimalPhenotypemedicine.anatomical_structureMyosin VIIaMicroscopy Electron ScanningFemalesense organsCarrier ProteinsUsher SyndromesTip linkPCDH15Developmental BiologyDevelopment
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Interactions in the network of Usher syndrome type 1 proteins

2004

International audience; Defects in myosin VIIa, harmonin (a PDZ domain protein), cadherin 23, protocadherin 15 and sans (a putative scaffolding protein), underlie five forms of Usher syndrome type I (USH1). Mouse mutants for all these proteins exhibit disorganization of their hair bundle, which is the mechanotransduction receptive structure of the inner ear sensory cells, the cochlear and vestibular hair cells. We have previously demonstrated that harmonin interacts with cadherin 23 and myosin VIIa. Here we address the extent of interactions between the five known USH1 proteins. We establish the previously suggested sans-harmonin interaction and find that sans also binds to myosin VIIa. We …

[SDV]Life Sciences [q-bio]Hearing Loss SensorineuralStereocilia (inner ear)PDZ domainCadherin Related ProteinsProtocadherinCell Cycle ProteinsNerve Tissue ProteinsCuticular plateMyosinsBiologyMiceTwo-Hybrid System TechniquesHair Cells AuditoryBone plateMyosinotorhinolaryngologic diseasesGeneticsAnimalsHumansProtein PrecursorsMolecular BiologyGenetics (clinical)GeneticsStereociliumDyneinsSyndromeGeneral MedicineCadherinsCell biologyCytoskeletal ProteinsMyosin VIIaMutationsense organsCarrier ProteinsRetinitis PigmentosaPCDH15HeLa CellsProtein BindingHuman Molecular Genetics
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