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 ResearchConceptsAutism 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
Vitamin C epigenetically controls osteogenesis and bone mineralization
Thaler R, Khani F, Sturmlechner I, Dehghani SS, Denbeigh JM, Zhou X, Pichurin O, Dudakovic A, Jerez SS, Zhong J, Lee JH, Natarajan R, Kalajzic I, Jiang YH, Deyle DR, Paschalis EP, Misof BM, Ordog T, van Wijnen AJ. Vitamin C epigenetically controls osteogenesis and bone mineralization. Nature Communications 2022, 13: 5883. PMID: 36202795, PMCID: PMC9537512, DOI: 10.1038/s41467-022-32915-8.Peer-Reviewed Original ResearchConceptsSevere skeletal defectsBone-specific genesEpigenetic functionsChromatin accessibilityHistone demethylationDNA hydroxymethylationTranscriptional activityPro-osteogenic genesCell differentiationOsteogenic cell differentiationOsteogenic differentiationGenesSkeletal defectsBone phenotypeMurine boneOsteoblastogenesisDifferentiationKnockout miceGulo knockout miceVitamin C deficiencyTET1Collagen maturationPromoterDemethylationVitamin CComparative Proteome and Cis-Regulatory Element Analysis Reveals Specific Molecular Pathways Conserved in Dog and Human Brains
Hong H, Zhao Z, Huang X, Guo C, Zhao H, Wang GD, Zhang YP, Zhao JP, Shi J, Wu QF, Jiang YH, Wang Y, Li LM, Du Z, Zhang YQ, Xiong Y. Comparative Proteome and Cis-Regulatory Element Analysis Reveals Specific Molecular Pathways Conserved in Dog and Human Brains. Molecular & Cellular Proteomics 2022, 21: 100261. PMID: 35738554, PMCID: PMC9304787, DOI: 10.1016/j.mcpro.2022.100261.Peer-Reviewed Original ResearchNeural 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 disorderBrain-wide electrical dynamics encode individual appetitive social behavior
Mague SD, Talbot A, Blount C, Walder-Christensen KK, Duffney LJ, Adamson E, Bey AL, Ndubuizu N, Thomas GE, Hughes DN, Grossman Y, Hultman R, Sinha S, Fink AM, Gallagher NM, Fisher RL, Jiang YH, Carlson DE, Dzirasa K. Brain-wide electrical dynamics encode individual appetitive social behavior. Neuron 2022, 110: 1728-1741.e7. PMID: 35294900, PMCID: PMC9126093, DOI: 10.1016/j.neuron.2022.02.016.Peer-Reviewed Original ResearchInhibition 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
2021
Mutations of the histone linker H1–4 in neurodevelopmental disorders and functional characterization of neurons expressing C-terminus frameshift mutant H1.4
Tremblay MW, Green MV, Goldstein BM, Aldridge AI, Rosenfeld JA, Streff H, Tan WD, Craigen W, Bekheirnia N, Al Tala S, West AE, Jiang YH. Mutations of the histone linker H1–4 in neurodevelopmental disorders and functional characterization of neurons expressing C-terminus frameshift mutant H1.4. Human Molecular Genetics 2021, 31: 1430-1442. PMID: 34788807, PMCID: PMC9271223, DOI: 10.1093/hmg/ddab321.Peer-Reviewed Original ResearchConceptsC-terminusGenome-wide transcriptome analysisRahman syndromeUnderstanding of mutationsHistone H1.4Neuronal genesTranscriptome analysisAbnormal C-terminusFunctional categoriesFunctional characterizationNeuropeptide signalingN-terminusDe novo heterozygous mutationsSupport of pathogenicitySmall insertionsFunctional consequencesNovo heterozygous mutationRat hippocampal neuronsFrameshift mutationMutationsH1.4Rare genetic disorderSevere intellectual disabilityGenesClinical featuresTET1-mediated DNA hydroxymethylation regulates adult remyelination in mice
Moyon S, Frawley R, Marechal D, Huang D, Marshall-Phelps KLH, Kegel L, Bøstrand SMK, Sadowski B, Jiang YH, Lyons DA, Möbius W, Casaccia P. TET1-mediated DNA hydroxymethylation regulates adult remyelination in mice. Nature Communications 2021, 12: 3359. PMID: 34099715, PMCID: PMC8185117, DOI: 10.1038/s41467-021-23735-3.Peer-Reviewed Original ResearchConceptsDNA hydroxymethylationSolute carrier gene familyNeuro-glial communicationZebrafish mutantsGene familyTranscriptomic analysisMyelin interfaceTen-ElevenAdult central nervous systemCentral nervous systemTET1Overexpressing cellsAdult remyelinationExpression levelsMutantsHydroxymethylationGenesNervous systemRepairMyelin repairTransportersKnockoutMiceRegulationAged mice
2020
The role of Hipk2-p53 pathways in arsenic-induced autistic behaviors: A translational study from rats to humans
Zhou H, Lin Y, Zhao W, Teng Y, Cui Y, Wang T, Li C, Jiang YH, Zhang JJ, Wang Y. The role of Hipk2-p53 pathways in arsenic-induced autistic behaviors: A translational study from rats to humans. Environmental Pollution 2020, 267: 115568. PMID: 33254717, DOI: 10.1016/j.envpol.2020.115568.Peer-Reviewed Original ResearchConceptsCase-control studySerum levelsArsenic exposureHealthy controlsNeuronal apoptosisFrontal cortexAge-matched healthy controlsGestational arsenic exposureHuman case-control studiesASD developmentHigher serum levelsAutistic behaviorASD childrenDose-dependent mannerAutism spectrum disorderPotential mediating pathwaysRat modelRat pupsKey molecular changesImmunohistochemistry analysisTranslational studiesWestern blottingMolecular changesTranslational strategiesMediating pathwaysA Novel Chd8 Mutant Mouse Displays Altered Ultrasonic Vocalizations and Enhanced Motor Coordination
Hulbert SW, Wang X, Gbadegesin SO, Xu Q, Xu X, Jiang Y. A Novel Chd8 Mutant Mouse Displays Altered Ultrasonic Vocalizations and Enhanced Motor Coordination. Autism Research 2020, 13: 1685-1697. PMID: 32815320, PMCID: PMC7780289, DOI: 10.1002/aur.2353.Peer-Reviewed Original Research
2019
Potassium channel dysfunction in human neuronal models of Angelman syndrome
Sun A, Yuan Q, Fukuda M, Yu W, Yan H, Lim G, Nai M, D'Agostino G, Tran H, Itahana Y, Wang D, Lokman H, Itahana K, Lim S, Tang J, Chang Y, Zhang M, Cook S, Rackham O, Lim C, Tan E, Ng H, Lim K, Jiang Y, Je H. Potassium channel dysfunction in human neuronal models of Angelman syndrome. Science 2019, 366: 1486-1492. PMID: 31857479, PMCID: PMC7735558, DOI: 10.1126/science.aav5386.Peer-Reviewed Original ResearchConceptsAngelman syndromePotassium channel dysfunctionAS mouse modelUbiquitin protein ligase E3A (UBE3A) geneHuman neuronal modelNeuronal hyperexcitabilityNetwork hyperactivityAS patientsSeizure susceptibilitySynaptic dysfunctionModel miceIntrinsic excitabilityNeuronal excitabilityMouse modelBig potassium channelsHuman neuronsChannel dysfunctionEpilepsy susceptibilityBK channelopathyMouse neuronsPotassium channelsIndividual neuronsBrain organoidsNeuronsDysfunctionMaternal valproic acid exposure leads to neurogenesis defects and autism-like behaviors in non-human primates
Zhao H, Wang Q, Yan T, Zhang Y, Xu H, Yu H, Tu Z, Guo X, Jiang Y, Li X, Zhou H, Zhang Y. Maternal valproic acid exposure leads to neurogenesis defects and autism-like behaviors in non-human primates. Translational Psychiatry 2019, 9: 267. PMID: 31636273, PMCID: PMC6803711, DOI: 10.1038/s41398-019-0608-1.Peer-Reviewed Original ResearchConceptsNon-human primatesVPA exposurePrefrontal cortexNeuN-positive mature neuronsGFAP-positive astrocytesValproic acid exposureAutism-like behaviorsAutism spectrum disorderCerebellar external granular layerImpaired social interactionMaternal exposureAntiepileptic drugsExternal granular layerRisk factorsVariable presentationMature neuronsMurine modelRodent modelsEpidemiological studiesAcid exposureNeurogenesis defectsNeuronal precursorsEmbryonic brainNeurodevelopmental defectsSimilar exposureNeurodevelopmental mutation of giant ankyrin-G disrupts a core mechanism for axon initial segment assembly
Yang R, Walder-Christensen KK, Lalani S, Yan H, García-Prieto ID, Álvarez S, Fernández-Jaén A, Speltz L, Jiang YH, Bennett V. Neurodevelopmental mutation of giant ankyrin-G disrupts a core mechanism for axon initial segment assembly. Proceedings Of The National Academy Of Sciences Of The United States Of America 2019, 116: 19717-19726. PMID: 31451636, PMCID: PMC6765234, DOI: 10.1073/pnas.1909989116.Peer-Reviewed Original ResearchConceptsΒ4-spectrinAxon initial segmentC-terminal domainNormal neural developmentPrevents recruitmentGiant ankyrinNeural developmentConformational changesMissense mutationsMutationsPhosphorylationSegment assemblyRecruitmentMouse brainClose appositionCore mechanismDomainAssemblyAnkyrinClosed configurationIntermediate stageInitial segmentSitesProximal axonsANK2 autism mutation targeting giant ankyrin-B promotes axon branching and ectopic connectivity
Yang R, Walder-Christensen KK, Kim N, Wu D, Lorenzo DN, Badea A, Jiang YH, Yin HH, Wetsel WC, Bennett V. ANK2 autism mutation targeting giant ankyrin-B promotes axon branching and ectopic connectivity. Proceedings Of The National Academy Of Sciences Of The United States Of America 2019, 116: 15262-15271. PMID: 31285321, PMCID: PMC6660793, DOI: 10.1073/pnas.1904348116.Peer-Reviewed Original ResearchMeSH KeywordsAlternative SplicingAnimalsAnkyrinsAutism Spectrum DisorderBehavior, AnimalCell MembraneConnectomeDisease Models, AnimalExecutive FunctionGene ExpressionGene Knock-In TechniquesHumansMaleMiceMice, TransgenicMicrotubulesMutationNeural Cell Adhesion Molecule L1Neuronal OutgrowthNeuronsPrimary Cell CultureSocial BehaviorSynapsesEpigenetic therapy of Prader–Willi syndrome
Kim Y, Wang SE, Jiang YH. Epigenetic therapy of Prader–Willi syndrome. Translational Research 2019, 208: 105-118. PMID: 30904443, PMCID: PMC6527448, DOI: 10.1016/j.trsl.2019.02.012.Peer-Reviewed Original ResearchConceptsPWS mouse modelEpigenetic-based therapiesMaternal chromosomesImprinted gene regulationEHMT2/G9aLysine 9 methyltransferasePatient-derived fibroblastsPrader-Willi syndromeGene regulationMethyltransferase SETDB1Epigenetic mechanismsSmall molecule librariesPWS genesHigh-content screeningSame genePerinatal lethalityEpigenetic therapyFusion proteinMolecular mechanismsG9a inhibitorChromosomesSNORD116 clusterGenesMolecular defectsPatient iPSC
2018
Autism-associated CHD8 deficiency impairs axon development and migration of cortical neurons
Xu Q, Liu YY, Wang X, Tan GH, Li HP, Hulbert SW, Li CY, Hu CC, Xiong ZQ, Xu X, Jiang YH. Autism-associated CHD8 deficiency impairs axon development and migration of cortical neurons. Molecular Autism 2018, 9: 65. PMID: 30574290, PMCID: PMC6299922, DOI: 10.1186/s13229-018-0244-2.Peer-Reviewed Original ResearchConceptsCHD8 deficiencyNeuronal migrationChromodomain helicase DNAMouse brainChromatin structureTranscriptional regulatorsParvalbumin-positive neuronsHistone H1Autism spectrum disorderGenetic studiesCHD8Protein 8Functional consequencesNovel insightsBiochemical analysisContralateral cortexSitu hybridizationCortical neuronsCommon findingUtero electroporationGlia cellsNeuronal culturesAxon projectionsDeficiency impairsCircuit mechanismsEpigenetic dysregulation of Oxtr in Tet1-deficient mice has implications for neuropsychiatric disorders
Towers AJ, Tremblay MW, Chung L, Li XL, Bey AL, Zhang W, Cao X, Wang X, Wang P, Duffney LJ, Siecinski SK, Xu S, Kim Y, Kong X, Gregory S, Xie W, Jiang YH. Epigenetic dysregulation of Oxtr in Tet1-deficient mice has implications for neuropsychiatric disorders. JCI Insight 2018, 3: e120592. PMID: 30518695, PMCID: PMC6328031, DOI: 10.1172/jci.insight.120592.Peer-Reviewed Original ResearchCRISPR/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 disorder