grant

Regulation of Oxytocin Receptor Signaling in Neurons

Organization UNIVERSITY OF OKLAHOMA HLTH SCIENCES CTRLocation OKLAHOMA CITY, UNITED STATESPosted 20 Jul 2022Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY2025ASDAgonistAnimal BehaviorArrestinsAutismAutistic DisorderBehavioralBindingBrainBrain DiseasesBrain DisordersBrain Nervous SystemBrain regionC-terminalCRISPR approachCRISPR based approachCRISPR methodCRISPR methodologyCRISPR techniqueCRISPR technologyCRISPR toolsCRISPR-CAS-9CRISPR-based methodCRISPR-based techniqueCRISPR-based technologyCRISPR-based toolCRISPR/CAS approachCRISPR/Cas methodCRISPR/Cas technologyCRISPR/Cas9CRISPR/Cas9 technologyCas nuclease technologyCell Communication and SignalingCell SignalingClustered Regularly Interspaced Short Palindromic Repeats approachClustered Regularly Interspaced Short Palindromic Repeats methodClustered Regularly Interspaced Short Palindromic Repeats methodologyClustered Regularly Interspaced Short Palindromic Repeats techniqueClustered Regularly Interspaced Short Palindromic Repeats technologyCommunicationComplexConnector NeuronCouplingDataDiseaseDisorderDrugsEarly Infantile AutismElectrophysiologyElectrophysiology (science)EncephalonEncephalon DiseasesEndocrine Gland SecretionFoundationsFutureG Protein-Complex ReceptorG Protein-Coupled Receptor GenesG Protein-Coupled Receptor Kinase FamilyG Protein-Coupled Receptor SignalingG protein coupled receptor kinaseG-Protein-Coupled ReceptorsG-ProteinsGPCRGPCR SignalingGRKGTP-Binding ProteinsGTP-Regulatory ProteinsGenerationsGenetics-MutagenesisGuanine Nucleotide Coupling ProteinGuanine Nucleotide Regulatory ProteinsHormonesImpairmentIn VitroInfantile AutismIntercalary NeuronIntercalated NeuronsInterneuronsInternuncial CellInternuncial NeuronIntracellular Communication and SignalingIntracranial CNS DisordersIntracranial Central Nervous System DisordersIntranasal AdministrationIntranasal Drug AdministrationInvestigationIsoformsKI miceKanner's SyndromeKnock-in MouseKnowledgeLabelLactationMediatingMedicationMental disordersMental health disordersMiceMice MammalsModalityMolecularMolecular InteractionMurineMusMutagenesisMutagenesis Molecular BiologyMutateNerve CellsNerve UnitNeural CellNeurocyteNeuromodulatorNeuronsNeurophysiology / ElectrophysiologyOcytocinOxytocinOxytocin ReceptorPalmitic Acylation SitePalmitoylation SitePharmaceutical PreparationsPhosphorylationPhosphorylation SitePost-Translational Modification Protein/Amino Acid BiochemistryPost-Translational ModificationsPost-Translational Protein ModificationPost-Translational Protein ProcessingPosttranslational ModificationsPosttranslational Protein ProcessingPreventionProcessPropertyProtein IsoformsProtein ModificationProtein PhosphorylationProteinsProteomicsPsychiatric DiseasePsychiatric DisorderReceptor ActivationReceptor ProteinReceptor SignalingRecombinant OxytocinRegulationRetinal S-AntigenRoleSignal PathwaySignal TransductionSignal Transduction SystemsSignalingSliceSocial BehaviorSocial ControlsStructureSystemTailTechniquesTestingTherapeutic HormoneTimeVirusWorkanxiety-related behaviorautism attributesautism indicatorautism spectral disorderautism spectrum disorderautism spectrum disorder featuresautism spectrum disorder indicatorautism spectrum disorder symptomsautism symptomologyautism symptomsautism-like symptomsautism-related attributesautistic featuresautistic spectrum disorderautistic symptomsautistic traitsautistic-like symptomsbiological signal transductiondebilitating symptomdecay accelerationdesensitizationdrug/agentelectrophysiologicalexperimentexperimental researchexperimental studyexperimentsin vivoinsightknock-downknockdownknockin micelactatinglactationalmental illnessmutantneuronalneuronal circuitneuronal circuitryneuropsychiatricneuropsychiatric diseaseneuropsychiatric disorderneuropsychiatrynew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapy approachesnew treatment approachnew treatment strategynovelnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapy approachpalmitoylationpreventpreventingprotein complexpsychiatric illnesspsychological disorderreceptorreceptor internalizationrecruitresponsesocialsocial cognitionsocial defectssocial deficitssocial disorderssocial dysfunctionsocial rolesociobehaviorsociobehavioraltherapeutic agent developmenttherapeutic development
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Full Description

PROJECT SUMMARY/ABSTRACT
Social deficits are a prominent feature of autism spectrum disorder and many other
neuropsychiatric diseases. Since there are currently no drugs available to treat these debilitating
symptoms, it is critical to decipher the neuronal mechanisms underlying social behavior and their
impairments in mental illnesses. Oxytocin, first discovered as a hormone that strengthens
contractions during labor and facilitates lactation, has subsequently been found to have a critical
role as a neuromodulator regulating social behavior. Recent work has begun to clarify how
oxytocin acts on neuronal circuits to modify inter-neuronal communication and circuit properties.
However, there is a large gap in the understanding of the intracellular signaling pathways that are
activated by oxytocin acting on its receptor in neurons. In particular, the regulatory mechanisms
that control oxytocin receptor signaling in neurons remain unexplored. Our preliminary findings
suggest robust and rapid-onset desensitization of oxytocin receptor response in multiple regions
of the mouse brain. Here, we propose to investigate the molecular mechanisms and behavioral
role of this process in the brain. Based on our generation of novel oxytocin receptor mutants that
do not undergo desensitization, we will characterize the molecular determinants that control
oxytocin-induced recruitment of the desensitizing machinery, G protein coupling and receptor
internalization in neurons and the brain. The behavioral role of oxytocin receptor desensitization
in controlling social behaviors will be tested by replacing endogenous oxytocin receptor in specific
brain regions with non-desensitizing mutants using CRISPR-Cas9 technique and virus delivery.
In addition, this proposal will dissect the inhibitory effect of a novel protein complex that we
identified in our proteomics experiments to associate with oxytocin receptor in neurons. The
investigations proposed here will provide a comprehensive test of our overall hypothesis that
neuronal oxytocin receptor is under tight regulatory control of receptor desensitization that limits
its signaling and that inhibiting this process would enhance oxytocin signaling and oxytocin-
dependent social behaviors. Completion of this work will provide deep insights into regulatory
mechanisms governing an important G protein-coupled receptor in the brain and may uncover
novel targets for the future development of therapeutic agents that alleviate social deficits in
neuropsychiatric disorders.

Grant Number: 5R01MH125998-04
NIH Institute/Center: NIH
Principal Investigator: Mohiuddin Ahmad

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