grant

Cross-species conservation of inhibitory cell type contributions to visual cortical function

Organization SALK INSTITUTE FOR BIOLOGICAL STUDIESLocation La Jolla, UNITED STATESPosted 15 Jul 2024Deadline 30 Jun 2026
NIHUS FederalResearch GrantFY20252-photonAAV vectorAAV-based vectorASDAdoptedAnimalsAntibodiesAttentionAutismAutistic DisorderAutopsyBehaviorBrainBrain Nervous SystemCell BodyCellsCerebral cortexChloride ChannelsChloride Ion ChannelsCognitionCommunitiesComplexConnector NeuronCyclic SomatostatinD CellsDelta CellDiseaseDisorderEarly Infantile AutismElectrodesEncephalonEnhancer ElementsEnhancersEpilepsyEpileptic SeizuresEpilepticsFP593FutureGene ExpressionGenesGenetic Enhancer ElementGrowth Hormone Inhibiting FactorsGrowth Hormone-Inhibiting HormoneHealthHistologyHumanInfantile AutismIntercalary NeuronIntercalated NeuronsInterneuronsInternuncial CellInternuncial NeuronKanner's SyndromeLightLocationMacacaMacaqueMapsMeasuresMediatingMental DepressionMethodsMiceMice MammalsModern ManMonkeysMurineMusNerve CellsNerve UnitNervous SystemNervous System DiseasesNervous System DisorderNervous System PhysiologyNeural CellNeurocyteNeurologic Body SystemNeurologic DisordersNeurologic Organ SystemNeurologic functionNeurological DisordersNeurological functionNeuronsNon-Polyadenylated RNAOpticsParvalbuminsPerceptionPhotoradiationPrimary visual cortexPrimatesPrimates MammalsPropertyProteinsRNARNA Gene ProductsReagentRibonucleic AcidRodentRodentiaRodents MammalsRoleSRIHSRIH-14SchizophreniaSchizophrenic DisordersSeizure DisorderSightSomatostatinSomatostatin CellsSomatostatin Secreting CellSomatostatin-14Somatotropin Release Inhibiting FactorsSomatotropin Release-Inhibiting HormoneStaining methodStainsStimulusStriate CortexStriate areaSurfaceSystemTarget PopulationsTestingThickThicknessTransgenesV1 neuronVirusVisionVisualVisual Cortexadeno-associated viral vectoradeno-associated virus vectorarea striataautism spectral disorderautism spectrum disorderautistic spectrum disordercalcium indicatorcell cortexcell typedementia praecoxdepressiondesigndesigningdrFP583ds red proteindsFP593enhancer sequenceepilepsiaepileptogenicexperimentexperimental researchexperimental studyexperimentsgenetic enhancer sequencegrowth hormone release inhibiting factorimaging approachimaging based approachimaging in vivoin vivoin vivo imaginginhibitory neuroninsightlight scatteringnecropsynervous system functionneurological diseaseneuronalnon-human primatenonhuman primateopticaloptogeneticspostmortemred fluorescent proteinresponseschizophrenicselective expressionselectively expressedsensorsocial roletooltransgenetransgene expressiontwo-photonvisual corticalvisual functionvisual stimulus
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Full Description

Project Summary
The function of the nervous system is dependent on complex interactions between networks of neurons
composed of multiple neuron types. Understanding how these networks function both in health and disease is
dependent on understanding the precise connectivity between specific neuron types and their functional
interactions in the intact brain. It is therefore apparent that, in order to have an adequate understanding of the
nervous system, it is necessary to have detailed descriptions of neuronal connectivity with the same level of
precision at which these systems operate and to selectively manipulate and measure the activity of specific cell
types in the context of the normal functioning network. Such studies would be greatly facilitated by the ability to
target gene expression to specific cell types in the context of AAV vectors. The aims of this proposal are
designed to first test and overcome possible limitations in the use of AAV vectors targeting gene expression to
SST- and PV-expressing inhibitory internueon in the visual cortex, and then to use these tools to selectively
manipulate the activity and characterize the functions of these inhibitory subclasses. The establishment of the
utility of these reagents will allow future studies testing the functional contributions of specific inhibitory neuron
types to perception,cognition and behavior.

Grant Number: 5R34NS137184-02
NIH Institute/Center: NIH
Principal Investigator: EDWARD CALLAWAY

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