2024
Impaired synaptic function and hyperexcitability of the pyramidal neurons in the prefrontal cortex of autism-associated Shank3 mutant dogs
Zhu F, Shi Q, Jiang Y, Zhang Y, Zhao H. Impaired synaptic function and hyperexcitability of the pyramidal neurons in the prefrontal cortex of autism-associated Shank3 mutant dogs. Molecular Autism 2024, 15: 9. PMID: 38297387, PMCID: PMC10829216, DOI: 10.1186/s13229-024-00587-4.Peer-Reviewed Original ResearchConceptsPrefrontal cortexPyramidal neuronsSHANK3 mutationsPrefrontal cortex neuronal activityPrefrontal cortex pyramidal neuronsSocial behaviorBrain slicesPrefrontal cortex's roleSynaptic transmissionPrefrontal cortex layersStudy social cognitionAutism spectrum disorderAutism-like behaviorsDendritic spine morphologyReduced dendritic complexitySocial cognitionSocial impairmentBehavioral alterationsNeural mechanismsExcitatory synaptic transmissionMutant rodent modelsHeightened anxietySpectrum disorderSpine densityImpaired synaptic function
2023
Modeling SHANK3-associated autism spectrum disorder in Beagle dogs via CRISPR/Cas9 gene editing
Tian R, Li Y, Zhao H, Lyu W, Zhao J, Wang X, Lu H, Xu H, Ren W, Tan Q, Shi Q, Wang G, Zhang Y, Lai L, Mi J, Jiang Y, Zhang Y. Modeling SHANK3-associated autism spectrum disorder in Beagle dogs via CRISPR/Cas9 gene editing. Molecular Psychiatry 2023, 28: 3739-3750. PMID: 37848710, DOI: 10.1038/s41380-023-02276-9.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutism Spectrum DisorderCRISPR-Cas SystemsDisease Models, AnimalDogsGene EditingHumansMicrofilament ProteinsNerve Tissue ProteinsConceptsAutism spectrum disorderSpectrum disorderNon-human primatesDog-human social interactionsPreclinical studiesBattery of behavioral assaysSocial behavior deficitsASD mouse modelsSocial interactionReduced social interactionCRISPR/Cas9 gene editingGenetic mutant miceNeural circuit mechanismsSocial withdrawalBehavioral findingsPsychiatric disordersBehavioral deficitsHeightened anxietyCanine modelSHANK3 mutationsSHANK3 geneCircuit mechanismsMutant miceMouse modelBehavioral assaysSHANK3 in vagal sensory neurons regulates body temperature, systemic inflammation, and sepsis
Zhang L, Bang S, He Q, Matsuda M, Luo X, Jiang Y, Ji R. SHANK3 in vagal sensory neurons regulates body temperature, systemic inflammation, and sepsis. Frontiers In Immunology 2023, 14: 1124356. PMID: 36845137, PMCID: PMC9944123, DOI: 10.3389/fimmu.2023.1124356.Peer-Reviewed Original ResearchConceptsVagal sensory neuronsNodose ganglionSensory neuronsSystemic inflammationBody temperatureDorsal root ganglion sensory neuronsSerum IL-6 levelsAuricular vagus nerve stimulationBasal core temperatureIL-6 levelsVagus nerve stimulationAutism spectrum disorderRole of Shank3Conditional knockout miceSynaptic scaffolding proteinsSepsis mortalityNerve stimulationExcessive inflammationHeat painInflammation dysregulationKO miceKnockout miceInflammationSHANK3 expressionNovel molecular mechanism
2022
Neural circuit pathology driven by Shank3 mutation disrupts social behaviors
Kim S, Kim YE, Song I, Ujihara Y, Kim N, Jiang YH, Yin HH, Lee TH, Kim IH. Neural circuit pathology driven by Shank3 mutation disrupts social behaviors. Cell Reports 2022, 39: 110906. PMID: 35675770, PMCID: PMC9210496, DOI: 10.1016/j.celrep.2022.110906.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderAlters spine morphologyWild-type miceExcitatory-inhibitory balanceSocial dysfunctionHuman ASD patientsMultiple brain regionsSocial behaviorElevated neural activityCircuit pathologyPathogenic mechanismsSHANK3 mutationsCircuit inhibitionBrain regionsCircuit activationNeural network mechanismReduced sociabilitySpine morphologyCore symptomsASD patientsPrefrontal cortexMiceSHANK3 geneNeural activitySpectrum disorderInhibition of Trpv4 rescues circuit and social deficits unmasked by acute inflammatory response in a Shank3 mouse model of Autism
Tzanoulinou S, Musardo S, Contestabile A, Bariselli S, Casarotto G, Magrinelli E, Jiang YH, Jabaudon D, Bellone C. Inhibition of Trpv4 rescues circuit and social deficits unmasked by acute inflammatory response in a Shank3 mouse model of Autism. Molecular Psychiatry 2022, 27: 2080-2094. PMID: 35022531, PMCID: PMC9126815, DOI: 10.1038/s41380-021-01427-0.Peer-Reviewed Original ResearchConceptsAcute inflammatory responseInflammatory responseSHANK3 geneTransient receptor potential vanilloid 4Shank3 mouse modelAutism spectrum disorderGenetic risk factorsInhibition of TRPV4Ex vivo approachNeuron hyperexcitabilityRisk factorsBehavioral deficitsNucleus accumbensMouse modelTRPV4 inhibitionBehavioral alterationsSocial deficitsSHANK3 mutationsCircuit mechanismsNeurodevelopmental diseasesGenetic alterationsTypes of mutationsHeterozygous deletionIdiopathic autismEnvironmental insults
2020
Altered striatum centered brain structures in SHANK3 deficient Chinese children with genotype and phenotype profiling
Liu C, Li D, Yang H, Li H, Xu Q, Zhou B, Hu C, Li C, Wang Y, Qiao Z, Jiang YH, Xu X. Altered striatum centered brain structures in SHANK3 deficient Chinese children with genotype and phenotype profiling. Progress In Neurobiology 2020, 200: 101985. PMID: 33388374, PMCID: PMC8572121, DOI: 10.1016/j.pneurobio.2020.101985.Peer-Reviewed Original ResearchMeSH KeywordsAutism Spectrum DisorderBrainChinaGenotypeGray MatterHumansNerve Tissue ProteinsPhenotypeConceptsTract-based spatial statisticsVoxel-based morphometryUnderlying neuropathological mechanismsNeuropathological mechanismsDeficient childrenBrain structuresMiddle cerebral peduncleAutism spectrum disorderAbnormal neural circuitsPosterior thalamic radiationGray matter volumeFunctional connectivity studiesSuperior longitudinal fasciculusStudy of subjectsCerebral peduncleInternal capsuleRisk factorsDental abnormalitiesCorpus callosumCommissural fibersHematological problemsCorona radiataDorsal striatumNeurobehavioral evaluationAnteverted naresSubacute Neuropsychiatric Syndrome in Girls With SHANK3 Mutations Responds to Immunomodulation
Bey AL, Gorman MP, Gallentine W, Kohlenberg TM, Frankovich J, Jiang YH, Van Haren K. Subacute Neuropsychiatric Syndrome in Girls With SHANK3 Mutations Responds to Immunomodulation. Pediatrics 2020, 145: e20191490. PMID: 32015180, PMCID: PMC7802010, DOI: 10.1542/peds.2019-1490.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAggressionAntipsychotic AgentsAnxietyAutism Spectrum DisorderCatatoniaChildCompulsive BehaviorCryingDevelopmental DisabilitiesFemaleFrameshift MutationHallucinationsHumansImmunoglobulins, IntravenousImmunosuppressive AgentsImmunotherapyIrritable MoodMethylprednisoloneMutismNerve Tissue ProteinsNeuroprotective AgentsObsessive-Compulsive DisorderRecurrenceSelf CareSleep Initiation and Maintenance DisordersStereotyped BehaviorSyndromeUrinary IncontinenceUrinary RetentionConceptsClinical observationsChronic relapsing coursePeriod of treatmentYears of ageImmunomodulatory treatmentUrinary retentionRelapsing courseNeurologic regressionCase seriesAntipsychotic medicationNeuropsychiatric syndromeMood disordersImmune functionObsessive-compulsive behaviorRare monogenic disordersNeurobehavioral syndromeTranslational investigationsPremorbid levelSHANK3 mutationsPatientsHormonal stimuliMonogenic disordersResponsive phenotypeDevelopmental disabilitiesSyndrome
2018
Genomic landscapes of Chinese sporadic autism spectrum disorders revealed by whole-genome sequencing
Wu J, Yu P, Jin X, Xu X, Li J, Li Z, Wang M, Wang T, Wu X, Jiang Y, Cai W, Mei J, Min Q, Xu Q, Zhou B, Guo H, Wang P, Zhou W, Hu Z, Li Y, Cai T, Wang Y, Xia K, Jiang YH, Sun ZS. Genomic landscapes of Chinese sporadic autism spectrum disorders revealed by whole-genome sequencing. Journal Of Genetics And Genomics 2018, 45: 527-538. PMID: 30392784, DOI: 10.1016/j.jgg.2018.09.002.Peer-Reviewed Original ResearchMeSH Keywords3' Untranslated RegionsAdolescentAdultAsian PeopleAutism Spectrum DisorderCell Cycle ProteinsChildChild, PreschoolChinaDNA Copy Number VariationsDNA-Binding ProteinsFemaleGenetic Predisposition to DiseaseHumansMaleMutationNerve Tissue ProteinsTranscription FactorsWhole Genome SequencingYoung AdultConceptsChromosomal rearrangement eventsDe novo chromosomal translocationsGenomic structural variantsNovo chromosomal translocationWhole genome sequencing datasetsFull genetic spectrumRare deleterious variantsChromosomal structure analysisHigh mutation rateSporadic autism spectrum disordersWhole-genome sequencingChromatin remodelingCentrosomal functionWhole genomeRare inherited mutationsDe novo mutationsRearrangement eventsSequencing datasetsDeleterious variantsGenomic variantsMutation rateStructural variantsGenomic landscapeNovo CNVsRisk genesCRISPR/Cas9-mediated disruption of SHANK3 in monkey leads to drug-treatable autism-like symptoms
Tu Z, Zhao H, Li B, Yan S, Wang L, Tang Y, Li Z, Bai D, Li C, Lin Y, Li Y, Liu J, Xu H, Guo X, Jiang YH, Zhang YQ, Li XJ. CRISPR/Cas9-mediated disruption of SHANK3 in monkey leads to drug-treatable autism-like symptoms. Human Molecular Genetics 2018, 28: 561-571. PMID: 30329048, PMCID: PMC6489410, DOI: 10.1093/hmg/ddy367.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderCynomolgus monkey modelAutism-like symptomsPathogenesis of ASDPostsynaptic scaffold proteinsNon-human primatesFluoxetine treatmentBrain network activityMonkey modelMouse modelBehavioral abnormalitiesCausative roleExperimental therapeuticsSHANK3 mutationsBrain structuresSHANK3 geneTranslational researchMonogenic mutationsBrain activitySpecies-dependent differencesPositron emissionNetwork activityCRISPR/Cas9-mediated disruptionMonkeysSpectrum disorderEnvironmental enrichment has minimal effects on behavior in the Shank3 complete knockout model of autism spectrum disorder
Hulbert SW, Bey AL, Jiang Y. Environmental enrichment has minimal effects on behavior in the Shank3 complete knockout model of autism spectrum disorder. Brain And Behavior 2018, 8: e01107. PMID: 30317697, PMCID: PMC6236244, DOI: 10.1002/brb3.1107.Peer-Reviewed Original ResearchEarly Correction of N-Methyl-D-Aspartate Receptor Function Improves Autistic-like Social Behaviors in Adult Shank2 −/− Mice
Chung C, Ha S, Kang H, Lee J, Um SM, Yan H, Yoo YE, Yoo T, Jung H, Lee D, Lee E, Lee S, Kim J, Kim R, Kwon Y, Kim W, Kim H, Duffney L, Kim D, Mah W, Won H, Mo S, Kim JY, Lim CS, Kaang BK, Boeckers TM, Chung Y, Kim H, Jiang YH, Kim E. Early Correction of N-Methyl-D-Aspartate Receptor Function Improves Autistic-like Social Behaviors in Adult Shank2 −/− Mice. Biological Psychiatry 2018, 85: 534-543. PMID: 30466882, PMCID: PMC6420362, DOI: 10.1016/j.biopsych.2018.09.025.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderSocial behaviorSpectrum disorderAutistic-like phenotypesLate pathophysiologyNMDAR hypofunctionHuman autism spectrum disorderNMDAR hyperfunctionN-methyl-D-aspartate (NMDA) receptor hypofunctionAutistic-like behaviorsNMDAR antagonist memantineAspartate Receptor FunctionEarly pathophysiologyPup stageEarly correctionAdult miceBehavioral analysisNMDAR dysfunctionPostnatal day 21Receptor hypofunctionChronic suppressionAnimal studiesDay 21HypofunctionDisordersBrain region-specific disruption of Shank3 in mice reveals a dissociation for cortical and striatal circuits in autism-related behaviors
Bey AL, Wang X, Yan H, Kim N, Passman RL, Yang Y, Cao X, Towers AJ, Hulbert SW, Duffney LJ, Gaidis E, Rodriguiz RM, Wetsel WC, Yin HH, Jiang YH. Brain region-specific disruption of Shank3 in mice reveals a dissociation for cortical and striatal circuits in autism-related behaviors. Translational Psychiatry 2018, 8: 94. PMID: 29700290, PMCID: PMC5919902, DOI: 10.1038/s41398-018-0142-6.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutism Spectrum DisorderBehavior, AnimalCorpus StriatumDisease Models, AnimalExcitatory Postsynaptic PotentialsHippocampusHomer Scaffolding ProteinsMice, KnockoutMicrofilament ProteinsNerve Tissue ProteinsNeuronsPhenotypeProsencephalonReceptors, Dopamine D1Receptors, Dopamine D2Receptors, N-Methyl-D-AspartateSocial BehaviorSynapsesConceptsDeletion of Shank3Brain regionsAutism-related behaviorsWhole-cell patch recordingsGluN2B-containing NMDARsShank3 mutant miceHomer1b/cRegion-specific disruptionRespective brain regionsNeural circuit mechanismsSpecific brain regionsASD-like behaviorsStriatal lossStriatal neuronsElectrophysiological findingsExcitatory neuronsHippocampal neuronsCell type-specific rolesInhibitory neuronsASD-related behaviorsStriatal circuitsSHANK3 deletionStriatal D1Excessive groomingPatch recordingsCRISPR/Cas9-induced shank3b mutant zebrafish display autism-like behaviors
Liu CX, Li CY, Hu CC, Wang Y, Lin J, Jiang YH, Li Q, Xu X. CRISPR/Cas9-induced shank3b mutant zebrafish display autism-like behaviors. Molecular Autism 2018, 9: 23. PMID: 29619162, PMCID: PMC5879542, DOI: 10.1186/s13229-018-0204-x.Peer-Reviewed Original ResearchConceptsMutant zebrafishMutant zebrafish modelGenome editing techniquesGene editing approachesZebrafish genomeOrthologous genesAttractive organismGenomic studiesCRISPR/Cas9 gene editing approachGenetic manipulationZebrafish modelCRISPR/ZebrafishMolecular mechanismsEditing approachesAdult stageFunction mutationsMolecular analysisEditing techniquesMolecular changesAutism-like behaviorsEarly developmentSwimming behaviorPresynaptic synaptophysinMorphological measurements
2017
Does age affect response to quinidine in patients with KCNT1 mutations? Report of three new cases and review of the literature
Abdelnour E, Gallentine W, McDonald M, Sachdev M, Jiang YH, Mikati MA. Does age affect response to quinidine in patients with KCNT1 mutations? Report of three new cases and review of the literature. Seizure 2017, 55: 1-3. PMID: 29291456, DOI: 10.1016/j.seizure.2017.11.017.Peer-Reviewed Original ResearchConceptsKCNT1 mutationsEpilepsy of infancyRetrospective chart reviewPotassium channel blockerYears of agePotential therapeutic agentFunction mutationsMigrating Focal SeizuresKCNT1 gainKCNT1 geneQuinidine initiationChart reviewRefractory seizuresSeizure frequencyQuinidine therapySeizure responseSeizure typesFocal seizuresEpilepsy syndromesVideo-EEGChannel blockersNew casesTherapeutic agentsPatientsAdditional childrenA Presynaptic Function of Shank Protein in Drosophila
Wu S, Gan G, Zhang Z, Sun J, Wang Q, Gao Z, Li M, Jin S, Huang J, Thomas U, Jiang YH, Li Y, Tian R, Zhang YQ. A Presynaptic Function of Shank Protein in Drosophila. Journal Of Neuroscience 2017, 37: 11592-11604. PMID: 29074576, PMCID: PMC6705749, DOI: 10.1523/jneurosci.0893-17.2017.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, Genetically ModifiedDrosophilaFemaleMaleMushroom BodiesNerve Tissue ProteinsNeuromuscular JunctionPresynaptic TerminalsConceptsSynapse developmentMushroom bodiesPresynaptic functionHuman genetic studiesPostsynaptic densityPSD scaffold proteinsPeripheral neuromuscular junctionsNull mutantsMushroom body calyxScaffold proteinFamily genesFamily proteinsExpression analysisDevelopmental defectsShank proteinsGenetic studiesShank familyCalyx structureFunction mutationsOnly memberIdiopathic autism spectrum disorderSynaptic roleNovel insightsProteinDrosophilaDeficiency of Shank2 causes mania-like behavior that responds to mood stabilizers
Pappas A, Bey A, Wang X, Rossi M, Kim Y, Yan H, Porkka F, Duffney L, Phillips S, Cao X, Ding J, Rodriguiz R, Yin H, Weinberg R, Ji R, Wetsel W, Jiang Y. Deficiency of Shank2 causes mania-like behavior that responds to mood stabilizers. JCI Insight 2017, 2: e92052. PMID: 29046483, PMCID: PMC5846902, DOI: 10.1172/jci.insight.92052.Peer-Reviewed Original ResearchAmphetamineAnhedoniaAnimalsAntimanic AgentsBehavior, AnimalBipolar DisorderCentral Nervous System StimulantsChronobiology DisordersCognitive DysfunctionFemaleHippocampusLithium CompoundsMaleMiceMice, KnockoutMotor ActivityNerve Tissue ProteinsN-MethylaspartatePhenotypeProsencephalonReceptors, AMPAReceptors, N-Methyl-D-AspartateSocial Behavior DisordersSynapsesAltered neurogenesis and disrupted expression of synaptic proteins in prefrontal cortex of SHANK3-deficient non-human primate
Zhao H, Tu Z, Xu H, Yan S, Yan H, Zheng Y, Yang W, Zheng J, Li Z, Tian R, Lu Y, Guo X, Jiang YH, Li XJ, Zhang YQ. Altered neurogenesis and disrupted expression of synaptic proteins in prefrontal cortex of SHANK3-deficient non-human primate. Cell Research 2017, 27: 1293-1297. PMID: 28741620, PMCID: PMC5630686, DOI: 10.1038/cr.2017.95.Peer-Reviewed Original Research
2016
SHANK3 Deficiency Impairs Heat Hyperalgesia and TRPV1 Signaling in Primary Sensory Neurons
Han Q, Kim YH, Wang X, Liu D, Zhang ZJ, Bey AL, Lay M, Chang W, Berta T, Zhang Y, Jiang YH, Ji RR. SHANK3 Deficiency Impairs Heat Hyperalgesia and TRPV1 Signaling in Primary Sensory Neurons. Neuron 2016, 92: 1279-1293. PMID: 27916453, PMCID: PMC5182147, DOI: 10.1016/j.neuron.2016.11.007.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBehavior, AnimalBlotting, WesternCapsaicinGanglia, SpinalHumansHyperalgesiaImmunohistochemistryInflammationMiceMice, KnockoutMicrofilament ProteinsNAV1.8 Voltage-Gated Sodium ChannelNerve Tissue ProteinsNeuralgiaPainPatch-Clamp TechniquesPresynaptic TerminalsReverse Transcriptase Polymerase Chain ReactionSensory Receptor CellsSensory System AgentsSpinal CordTRPV Cation ChannelsConceptsHeat hyperalgesiaSensory neuronsDRG neuronsMouse dorsal root ganglion sensory neuronsDorsal root ganglion sensory neuronsCapsaicin-induced spontaneous painAbnormal pain sensitivityHuman DRG neuronsPrimary sensory neuronsAutism spectrum disorderSpinal cord neuronsSpontaneous painTRPV1 signalingNeuropathic painPain sensitivityPeripheral mechanismsCord neuronsSHANK3 haploinsufficiencyTRPV1 functionPresynaptic terminalsSynaptic currentsPain deficitsSHANK3 deficiencyInward currentsSHANK3 expressionAltered mGluR5-Homer scaffolds and corticostriatal connectivity in a Shank3 complete knockout model of autism
Wang X, Bey AL, Katz BM, Badea A, Kim N, David LK, Duffney LJ, Kumar S, Mague SD, Hulbert SW, Dutta N, Hayrapetyan V, Yu C, Gaidis E, Zhao S, Ding JD, Xu Q, Chung L, Rodriguiz RM, Wang F, Weinberg RJ, Wetsel WC, Dzirasa K, Yin H, Jiang YH. Altered mGluR5-Homer scaffolds and corticostriatal connectivity in a Shank3 complete knockout model of autism. Nature Communications 2016, 7: 11459. PMID: 27161151, PMCID: PMC4866051, DOI: 10.1038/ncomms11459.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutism Spectrum DisorderBehavior, AnimalCerebral CortexCorpus StriatumFemaleHomer Scaffolding ProteinsHumansLong-Term Synaptic DepressionMaleMiceMice, KnockoutMicrofilament ProteinsModels, NeurologicalNerve NetNerve Tissue ProteinsReceptor, Metabotropic Glutamate 5Sequence DeletionSocial BehaviorConceptsASD-like behaviorsCircuit mechanismsStriatal synaptic plasticityAutism spectrum disorderAbnormal brain morphologyPathophysiology of ASDNeural circuit mechanismsHuman neuroimaging studiesKnockout mouse modelAberrant neural connectivityCircuit abnormalitiesStriatal neuronsStriatal synapsesCorticostriatal connectivityBehavioral deficitsAberrant structural connectivityMouse modelThalamic circuitsExcessive groomingSynaptic plasticityBrain morphologyNeuroimaging studiesSHANK3 geneNeural connectivityKnockout models
2015
Quinidine in the treatment of KCNT1‐positive epilepsies
Mikati MA, Jiang YH, Carboni M, Shashi V, Petrovski S, Spillmann R, Milligan CJ, Li M, Grefe A, McConkie A, Berkovic S, Scheffer I, Mullen S, Bonner M, Petrou S, Goldstein D. Quinidine in the treatment of KCNT1‐positive epilepsies. Annals Of Neurology 2015, 78: 995-999. PMID: 26369628, PMCID: PMC4811613, DOI: 10.1002/ana.24520.Peer-Reviewed Original ResearchConceptsEpilepsy of infancySecondary generalized seizuresDrug-resistant epilepsySeizure frequencyGeneralized seizuresFocal seizuresKCNT1 mutationsSeizure evaluationSeizure diariesTargeted drugsTherapeutic benefitDevelopmental regressionEpilepsyGain of functionQuinidineEarly childhoodSeizuresPatientsMutations