grant

Mechanism of touch sensitivity in rapidly-adapting mechanosensory corpuscles

Organization YALE UNIVERSITYLocation NEW HAVEN, UNITED STATESPosted 1 Dec 2016Deadline 31 Jan 2027
NIHUS FederalResearch GrantFY2025Action PotentialsAgreementBioinformaticsCell BodyCellsCellular MechanotransductionCorpuscula LamellosaCorpusculum TactusDataDetectionDevelopmentDucksElectrophysiologyElectrophysiology (science)ElementsEmbryoEmbryonicEnvironmentGenerationsGleanHistologyHumanIndividualIon ChannelIon Channel GatingIon Channel GatingsIonic ChannelsLamellated CorpuscleMammaliaMammalsMechanical Signal TransductionMechanical StimulationMechanicsMechanoreceptorsMechanosensory TransductionMediatingMeissners CorpuscleMembrane ChannelsMethodsModelingModern ManMolecularMorphologyNerve CellsNerve UnitNervous System DiseasesNervous System DisorderNeural CellNeurocyteNeurologic DisordersNeurological DisordersNeuronsNeurophysiology / ElectrophysiologyOrganOrganismOrganism-Level ProcessOrganismal ProcessOval CorpusclePacinian CorpusclesPainPainfulPathologicPerceptionPharmacologyPhysiologicPhysiologic ProcessesPhysiologicalPhysiological ProcessesPhysiologyPiezo 2Piezo 2 ion channelPiezo2PlayPopulationProcessRoleShapesSkinSpecialistStructureTactileTactile CorpuscleTemperatureTestingTouchTouch CorpuscleTouch sensationVater's CorpuscleVater-Pacini CorpuscleVertebrate AnimalsVertebratesbiophysical analysisbiophysical studiesdensitydevelopmentalelectrophysiologicalexperienceexperimentexperimental researchexperimental studyexperimentsinsightknock-downknockdownliving systemmechanicmechanicalmechanical forcemechanical propertiesmechanical stimulusmechanosensingmechanotransductionneurological diseaseneuronalobject recognitionoptogeneticsparent grantpharmacologicpleasurepressureresponsesensorsocial roletactile sensationtoolvertebratavibrationvoltage
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Full Description

The ability to sense the world though physical contact is essential for all living organisms. In vertebrates, transient
touch and vibration are detected by Pacinian corpuscles, but the mechanism of their function is poorly
understood. Pacinian corpuscles are innervated by rapidly-adapting mechanoreceptor afferents, which detect
touch due to expression of mechanically activated ion channels. The mechanoreceptor is surrounded by inner
core cells, which are thought to provide auxiliary non-sensory support for the mechanoreceptor. Here, we will
functionally test the hypothesis that inner core cells of Pacinian corpuscles are active touch sensors. We seek
to reveal the molecular mechanism of touch sensitivity and touch-evoked excitability in inner core cells, and
determine the effect of inner core cell activation on mechanoreceptor function. To do this, we will use bill skin of
tactile specialist ducks, which contains a high density of Pacinian corpuscles accessible for electrophysiological
manipulations. Because Pacinian corpuscles are present in the skin or internal organs of most vertebrates,
including all mammals, our results will further our understanding of general molecular and cellular mechanisms
of touch detection.

Grant Number: 5R01NS097547-09
NIH Institute/Center: NIH
Principal Investigator: Sviatoslav Bagriantsev

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