2023
Primary complex motor stereotypies are associated with de novo damaging DNA coding mutations that identify KDM5B as a risk gene
Fernandez T, Williams Z, Kline T, Rajendran S, Augustine F, Wright N, Sullivan C, Olfson E, Abdallah S, Liu W, Hoffman E, Gupta A, Singer H. Primary complex motor stereotypies are associated with de novo damaging DNA coding mutations that identify KDM5B as a risk gene. PLOS ONE 2023, 18: e0291978. PMID: 37788244, PMCID: PMC10547198, DOI: 10.1371/journal.pone.0291978.Peer-Reviewed Original ResearchConceptsRisk genesDe novo damaging variantsGene expression patternsWhole-exome DNA sequencingMid-fetal developmentAdditional risk genesHigh-confidence risk genesParent-child triosGene OntologyCell signalingExpression patternsCalcium ion transportFunctional convergenceCell cycleDamaging variantsGenesDNA sequencingDe novoASD probandsGenetic etiologyBiological mechanismsSequencingDNANetwork analysisIon transport
2021
Engineering spatial-organized cardiac organoids for developmental toxicity testing
Hoang P, Kowalczewski A, Sun S, Winston TS, Archilla AM, Lemus SM, Ercan-Sencicek AG, Gupta AR, Liu W, Kontaridis MI, Amack JD, Ma Z. Engineering spatial-organized cardiac organoids for developmental toxicity testing. Stem Cell Reports 2021, 16: 1228-1244. PMID: 33891865, PMCID: PMC8185451, DOI: 10.1016/j.stemcr.2021.03.013.Peer-Reviewed Original ResearchA neurogenetic analysis of female autism
Jack A, Sullivan CAW, Aylward E, Bookheimer SY, Dapretto M, Gaab N, Van Horn JD, Eilbott J, Jacokes Z, Torgerson CM, Bernier RA, Geschwind DH, McPartland JC, Nelson CA, Webb SJ, Pelphrey KA, Gupta AR, Bernier R, McPartland J, Ventola P, Kresse A, Neuhaus E, Corrigan S, Wolf J, McDonald N, Ankenman K, Webb S, Jeste S, Nelson C, Naples A, Libsack E, Pelphrey K, Aylward E, Bookheimer S, Gaab N, Dapretto M, Van Horn J, Jack A, Guilford D, Torgerson C, Welker O, Geschwind D, Gupta A, Sullivan C, Lowe J, Jacokes Z, MacDonnell E, Tsapelas H, Depedro-Mercier D, Keifer C, Ventola P. A neurogenetic analysis of female autism. Brain 2021, 144: 1911-1926. PMID: 33860292, PMCID: PMC8320285, DOI: 10.1093/brain/awab064.Peer-Reviewed Original ResearchParenting Stress and its Associated Components Prior to an Autism Spectrum Disorder (ASD) Diagnostic Evaluation
Voliovitch Y, Leventhal JM, Fenick AM, Gupta AR, Feinberg E, Hickey EJ, Shabanova V, Weitzman C. Parenting Stress and its Associated Components Prior to an Autism Spectrum Disorder (ASD) Diagnostic Evaluation. Journal Of Autism And Developmental Disorders 2021, 51: 3432-3442. PMID: 33387245, DOI: 10.1007/s10803-020-04804-w.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderASD symptom severityParents of childrenChild ASD symptom severityActive-avoidance copingLow-SES parentsAvoidance copingAdaptive functioningParenting stressSpectrum disorderChild factorsParental worrySocial supportSymptom severityRisk of ASDParentsS parentChildrenMultiple regression modelingAssociated componentsCopingFunctioningWorryCross-sectional studyDisorders
2020
Identification of amygdala-expressed genes associated with autism spectrum disorder
Herrero MJ, Velmeshev D, Hernandez-Pineda D, Sethi S, Sorrells S, Banerjee P, Sullivan C, Gupta AR, Kriegstein AR, Corbin JG. Identification of amygdala-expressed genes associated with autism spectrum disorder. Molecular Autism 2020, 11: 39. PMID: 32460837, PMCID: PMC7251751, DOI: 10.1186/s13229-020-00346-1.Peer-Reviewed Original ResearchConceptsASD susceptibility genesSusceptibility genesSingle-nucleus RNA-seq dataCohort of genesIdentification of hundredsRNA-seq dataCell-type specificityAvailable gene expression databasesGene expression analysisGene expression databaseSpecific cell typesEarly developmental stagesHuman tissuesSeq analysisGene sets
2019
De Novo Damaging DNA Coding Mutations Are Associated With Obsessive-Compulsive Disorder and Overlap With Tourette’s Disorder and Autism
Cappi C, Oliphant ME, Péter Z, Zai G, Conceição do Rosário M, Sullivan CAW, Gupta AR, Hoffman EJ, Virdee M, Olfson E, Abdallah SB, Willsey AJ, Shavitt RG, Miguel EC, Kennedy JL, Richter MA, Fernandez TV. De Novo Damaging DNA Coding Mutations Are Associated With Obsessive-Compulsive Disorder and Overlap With Tourette’s Disorder and Autism. Biological Psychiatry 2019, 87: 1035-1044. PMID: 31771860, PMCID: PMC7160031, DOI: 10.1016/j.biopsych.2019.09.029.Peer-Reviewed Original Research
2018
PAC1R Genotype to Phenotype Correlations in Autism Spectrum Disorder
Goodrich M, Armour AC, Panchapakesan K, You X, Devaney J, Knoblach S, Sullivan CAW, Herrero MJ, Gupta AR, Vaidya CJ, Kenworthy L, Corbin JG. PAC1R Genotype to Phenotype Correlations in Autism Spectrum Disorder. Autism Research 2018, 12: 200-211. PMID: 30556326, PMCID: PMC6665682, DOI: 10.1002/aur.2051.Peer-Reviewed Original ResearchConceptsResting-state functional connectivity differencesAutism spectrum disorderHuman amygdalaRight middle temporal gyrusFunctional connectivity differencesHigher functional connectivityEarly postnatal stagesNumerous neurodevelopmental disordersMiddle temporal gyrusGC genotypeBrain trajectoriesRisk genotypesSocial deficitsConnectivity differencesAmygdalaTemporal gyrusFunctional connectivityBrain connectivityPostnatal stagesTime pointsNeurodevelopmental disordersMiceCritical time pointsMultimodal approachPossible alterations
2017
Neurogenetic analysis of childhood disintegrative disorder
Gupta AR, Westphal A, Yang DYJ, Sullivan CAW, Eilbott J, Zaidi S, Voos A, Vander Wyk BC, Ventola P, Waqar Z, Fernandez TV, Ercan-Sencicek AG, Walker MF, Choi M, Schneider A, Hedderly T, Baird G, Friedman H, Cordeaux C, Ristow A, Shic F, Volkmar FR, Pelphrey KA. Neurogenetic analysis of childhood disintegrative disorder. Molecular Autism 2017, 8: 19. PMID: 28392909, PMCID: PMC5379515, DOI: 10.1186/s13229-017-0133-0.Peer-Reviewed Original ResearchAdaptor Proteins, Signal TransducingAutism Spectrum DisorderBasic Helix-Loop-Helix Transcription FactorsBrainBrain MappingCase-Control StudiesChildChild, PreschoolChromosomes, Human, XDisease ProgressionDNA Copy Number VariationsExome SequencingFemaleGene ExpressionHumansIntellectual DisabilityMagnetic Resonance ImagingMaleMaternal InheritanceNuclear ProteinsPhenotypePolymorphism, GeneticSeverity of Illness IndexSiblingsTranscription FactorsTranscriptome
2015
No Evidence for Association of Autism with Rare Heterozygous Point Mutations in Contactin-Associated Protein-Like 2 (CNTNAP2), or in Other Contactin-Associated Proteins or Contactins
Murdoch JD, Gupta AR, Sanders SJ, Walker MF, Keaney J, Fernandez TV, Murtha MT, Anyanwu S, Ober GT, Raubeson MJ, DiLullo NM, Villa N, Waqar Z, Sullivan C, Gonzalez L, Willsey AJ, Choe SY, Neale BM, Daly MJ, State MW. No Evidence for Association of Autism with Rare Heterozygous Point Mutations in Contactin-Associated Protein-Like 2 (CNTNAP2), or in Other Contactin-Associated Proteins or Contactins. PLOS Genetics 2015, 11: e1004852. PMID: 25621974, PMCID: PMC4306541, DOI: 10.1371/journal.pgen.1004852.Peer-Reviewed Original ResearchConceptsContactin-Associated ProteinSingle nucleotide variantsRelated gene familiesPoint mutationsLike-2Autism risk genesHeterozygous single-nucleotide variantsNumber variation analysisGene familyNext-generation sequencingSequence dataMolecular cytogeneticsRare point mutationsAssociation studiesHomozygosity mappingNucleotide variantsRisk genesRare heterozygous mutationsProteinHeterozygous point mutationMutationsGenesVariation analysisContactinHeterozygous mutations
2014
Modeling non-syndromic autism and the impact of TRPC6 disruption in human neurons
Griesi-Oliveira K, Acab A, Gupta AR, Sunaga DY, Chailangkarn T, Nicol X, Nunez Y, Walker MF, Murdoch JD, Sanders SJ, Fernandez TV, Ji W, Lifton RP, Vadasz E, Dietrich A, Pradhan D, Song H, Ming GL, Gu X, Haddad G, Marchetto MC, Spitzer N, Passos-Bueno MR, State MW, Muotri AR. Modeling non-syndromic autism and the impact of TRPC6 disruption in human neurons. Molecular Psychiatry 2014, 20: 1350-1365. PMID: 25385366, PMCID: PMC4427554, DOI: 10.1038/mp.2014.141.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic Combined Chemotherapy ProtocolsAutistic DisorderCarboplatinCell DifferentiationCell LineCell ProliferationCells, CulturedChildDisease Models, AnimalEmbryo, MammalianEtoposideGene Expression RegulationHumansIn Vitro TechniquesInduced Pluripotent Stem CellsInhibitory Postsynaptic PotentialsMaleMiceMice, Inbred C57BLMice, TransgenicMitoxantroneMutationNeuronsPrednisoloneSignal TransductionTRPC Cation ChannelsTRPC6 Cation ChannelConceptsHuman neuronsPluripotent stem cellsNon-syndromic autismMethyl-CpGNeuronal developmentNonsynonymous mutationsDental pulp cellsFunction mutationsHaploinsufficiency leadsFunctional studiesNeuronal cellsNeuronal phenotypeGenetic variantsStem cellsFactor 1Cation channelsNon-syndromic autism spectrum disorderInsulin-like growth factor-1Incomplete penetranceMutationsRett syndromeSuch variantsAutism spectrum disorderPulp cellsGrowth factor-1De Novo Insertions and Deletions of Predominantly Paternal Origin Are Associated with Autism Spectrum Disorder
Dong S, Walker MF, Carriero NJ, DiCola M, Willsey AJ, Ye AY, Waqar Z, Gonzalez LE, Overton JD, Frahm S, Keaney JF, Teran NA, Dea J, Mandell JD, Bal V, Sullivan CA, DiLullo NM, Khalil RO, Gockley J, Yuksel Z, Sertel SM, Ercan-Sencicek AG, Gupta AR, Mane SM, Sheldon M, Brooks AI, Roeder K, Devlin B, State MW, Wei L, Sanders SJ. De Novo Insertions and Deletions of Predominantly Paternal Origin Are Associated with Autism Spectrum Disorder. Cell Reports 2014, 9: 16-23. PMID: 25284784, PMCID: PMC4194132, DOI: 10.1016/j.celrep.2014.08.068.Peer-Reviewed Original ResearchHomozygous loss of DIAPH1 is a novel cause of microcephaly in humans
Ercan-Sencicek AG, Jambi S, Franjic D, Nishimura S, Li M, El-Fishawy P, Morgan TM, Sanders SJ, Bilguvar K, Suri M, Johnson MH, Gupta AR, Yuksel Z, Mane S, Grigorenko E, Picciotto M, Alberts AS, Gunel M, Šestan N, State MW. Homozygous loss of DIAPH1 is a novel cause of microcephaly in humans. European Journal Of Human Genetics 2014, 23: 165-172. PMID: 24781755, PMCID: PMC4297910, DOI: 10.1038/ejhg.2014.82.Peer-Reviewed Original ResearchConceptsCell divisionFamily-based linkage analysisLinkage analysisRho effector proteinsLinear actin filamentsMaintenance of polarityMitotic cell divisionHigh-throughput sequencingRare genetic variantsHuman neuronal precursor cellsParametric multipoint linkage analysisActivation of GTPNeuronal precursor cellsFormin familyMammalian DiaphanousEffector proteinsMultipoint linkage analysisSpindle formationActin filamentsNonsense alterationWhole-exome sequencingHuman pathologiesNeuroepithelial cellsGenetic variantsHomozygous loss
2013
Coexpression Networks Implicate Human Midfetal Deep Cortical Projection Neurons in the Pathogenesis of Autism
Willsey AJ, Sanders SJ, Li M, Dong S, Tebbenkamp AT, Muhle RA, Reilly SK, Lin L, Fertuzinhos S, Miller JA, Murtha MT, Bichsel C, Niu W, Cotney J, Ercan-Sencicek AG, Gockley J, Gupta AR, Han W, He X, Hoffman EJ, Klei L, Lei J, Liu W, Liu L, Lu C, Xu X, Zhu Y, Mane SM, Lein ES, Wei L, Noonan JP, Roeder K, Devlin B, Sestan N, State MW. Coexpression Networks Implicate Human Midfetal Deep Cortical Projection Neurons in the Pathogenesis of Autism. Cell 2013, 155: 997-1007. PMID: 24267886, PMCID: PMC3995413, DOI: 10.1016/j.cell.2013.10.020.Peer-Reviewed Original ResearchConceptsCoexpression networkASD genesComplex developmental syndromeGenome-wide sequencingCortical projection neuronsHigh-confidence ASD genesExpression data setsPleiotropic genesSpecific genesDevelopmental processesDevelopmental syndromesSequencing studiesGenesProjection neuronsCell typesBrain regionsType mutationsCommon phenotypeASD pathophysiologyPathogenesis of autismAutism spectrum disorderMutationsHuman brain regionsUnknown etiologyRecent studies
2012
Mutations in BCKD-kinase Lead to a Potentially Treatable Form of Autism with Epilepsy
Novarino G, El-Fishawy P, Kayserili H, Meguid NA, Scott EM, Schroth J, Silhavy JL, Kara M, Khalil RO, Ben-Omran T, Ercan-Sencicek AG, Hashish AF, Sanders SJ, Gupta AR, Hashem HS, Matern D, Gabriel S, Sweetman L, Rahimi Y, Harris RA, State MW, Gleeson JG. Mutations in BCKD-kinase Lead to a Potentially Treatable Form of Autism with Epilepsy. Science 2012, 338: 394-397. PMID: 22956686, PMCID: PMC3704165, DOI: 10.1126/science.1224631.Peer-Reviewed Original ResearchMeSH Keywords3-Methyl-2-Oxobutanoate Dehydrogenase (Lipoamide)AdolescentAmino Acids, Branched-ChainAnimalsArginineAutistic DisorderBase SequenceBrainChildChild, PreschoolDietEpilepsyFemaleHomozygoteHumansIntellectual DisabilityMaleMiceMice, KnockoutMolecular Sequence DataMutationPedigreePhosphorylationProtein FoldingProtein Structure, TertiaryRNA, MessengerYoung AdultConceptsBranched-chain ketoacid dehydrogenaseBrain amino acid profilesPlasma branched-chain amino acidsIntellectual disabilityBranched-chain amino acidsTreatable syndromeNeurobehavioral deficitsTreatable formSomatic treatmentsDietary supplementationKnockout miceEpilepsyPhosphorylation-mediated inactivationConsanguineous familyReciprocal social interactionSyndromeKetoacid dehydrogenaseAmino acid profileMessenger RNAAutism spectrum disorderE1α phosphorylationDisabilitySpectrum disorderHeterogeneous constellationAcid profileDe novo mutations revealed by whole-exome sequencing are strongly associated with autism
Sanders SJ, Murtha MT, Gupta AR, Murdoch JD, Raubeson MJ, Willsey AJ, Ercan-Sencicek AG, DiLullo NM, Parikshak NN, Stein JL, Walker MF, Ober GT, Teran NA, Song Y, El-Fishawy P, Murtha RC, Choi M, Overton JD, Bjornson RD, Carriero NJ, Meyer KA, Bilguvar K, Mane SM, Šestan N, Lifton RP, Günel M, Roeder K, Geschwind DH, Devlin B, State MW. De novo mutations revealed by whole-exome sequencing are strongly associated with autism. Nature 2012, 485: 237-241. PMID: 22495306, PMCID: PMC3667984, DOI: 10.1038/nature10945.Peer-Reviewed Original Research
2011
Multiple Recurrent De Novo CNVs, Including Duplications of the 7q11.23 Williams Syndrome Region, Are Strongly Associated with Autism
Sanders SJ, Ercan-Sencicek AG, Hus V, Luo R, Murtha MT, Moreno-De-Luca D, Chu SH, Moreau MP, Gupta AR, Thomson SA, Mason CE, Bilguvar K, Celestino-Soper PB, Choi M, Crawford EL, Davis L, Wright NR, Dhodapkar RM, DiCola M, DiLullo NM, Fernandez TV, Fielding-Singh V, Fishman DO, Frahm S, Garagaloyan R, Goh GS, Kammela S, Klei L, Lowe JK, Lund SC, McGrew AD, Meyer KA, Moffat WJ, Murdoch JD, O'Roak BJ, Ober GT, Pottenger RS, Raubeson MJ, Song Y, Wang Q, Yaspan BL, Yu TW, Yurkiewicz IR, Beaudet AL, Cantor RM, Curland M, Grice DE, Günel M, Lifton RP, Mane SM, Martin DM, Shaw CA, Sheldon M, Tischfield JA, Walsh CA, Morrow EM, Ledbetter DH, Fombonne E, Lord C, Martin CL, Brooks AI, Sutcliffe JS, Cook EH, Geschwind D, Roeder K, Devlin B, State MW. Multiple Recurrent De Novo CNVs, Including Duplications of the 7q11.23 Williams Syndrome Region, Are Strongly Associated with Autism. Neuron 2011, 70: 863-885. PMID: 21658581, PMCID: PMC3939065, DOI: 10.1016/j.neuron.2011.05.002.Peer-Reviewed Original ResearchAdolescentCadherinsCalcium-Binding ProteinsCell Adhesion Molecules, NeuronalChildChild Development Disorders, PervasiveChild, PreschoolChromosomes, Human, Pair 16Chromosomes, Human, Pair 7Chromosomes, Human, XDNA Copy Number VariationsFamily HealthFemaleGene DuplicationGene Expression ProfilingGenome-Wide Association StudyGenotypeHumansMaleNerve Tissue ProteinsNeural Cell Adhesion MoleculesOligonucleotide Array Sequence AnalysisPhenotypeProteinsSiblingsUbiquitin ThiolesteraseUbiquitin-Specific Peptidase 7Williams Syndrome
2010
L-Histidine Decarboxylase and Tourette's Syndrome
Ercan-Sencicek AG, Stillman AA, Ghosh AK, Bilguvar K, O'Roak BJ, Mason CE, Abbott T, Gupta A, King RA, Pauls DL, Tischfield JA, Heiman GA, Singer HS, Gilbert DL, Hoekstra PJ, Morgan TM, Loring E, Yasuno K, Fernandez T, Sanders S, Louvi A, Cho JH, Mane S, Colangelo CM, Biederer T, Lifton RP, Gunel M, State MW. L-Histidine Decarboxylase and Tourette's Syndrome. New England Journal Of Medicine 2010, 362: 1901-1908. PMID: 20445167, PMCID: PMC2894694, DOI: 10.1056/nejmoa0907006.Peer-Reviewed Original ResearchConceptsRare functional mutationsL-histidine decarboxylaseRate-limiting enzymeHDC geneTwo-generation pedigreeFunctional mutationsStrong genetic contributionHistamine biosynthesisAnalysis of linkageGenetic contributionModel systemRisk allelesDevelopmental neuropsychiatric disordersDecarboxylaseBiosynthesisGenesTourette syndromeMutationsAllelesEnzymeInheritanceNeuropsychiatric disordersPedigree
2008
Molecular Cytogenetic Analysis and Resequencing of Contactin Associated Protein-Like 2 in Autism Spectrum Disorders
Bakkaloglu B, O'Roak BJ, Louvi A, Gupta AR, Abelson JF, Morgan TM, Chawarska K, Klin A, Ercan-Sencicek AG, Stillman AA, Tanriover G, Abrahams BS, Duvall JA, Robbins EM, Geschwind DH, Biederer T, Gunel M, Lifton RP, State MW. Molecular Cytogenetic Analysis and Resequencing of Contactin Associated Protein-Like 2 in Autism Spectrum Disorders. American Journal Of Human Genetics 2008, 82: 165-173. PMID: 18179895, PMCID: PMC2253974, DOI: 10.1016/j.ajhg.2007.09.017.Peer-Reviewed Original ResearchConceptsAutism susceptibility candidate 2Contactin 4Plasma membrane fractionSynaptic plasma membrane fractionMolecular cytogenetic analysisComplex genetic etiologyRare variantsBioinformatics approachConserved positionNonsynonymous changesMembrane fractionRare homozygous mutationControl chromosomesBiochemical analysisNeurodevelopmental syndromeGenetic etiologyPathophysiology of ASDCandidate 2Recent findingsHomozygous mutationUnrelated familiesCytogenetic analysisMutationsVariantsResequencing
2006
Recent Advances in the Genetics of Autism
Gupta AR, State MW. Recent Advances in the Genetics of Autism. Biological Psychiatry 2006, 61: 429-437. PMID: 16996486, DOI: 10.1016/j.biopsych.2006.06.020.Peer-Reviewed Original ResearchConceptsGenomic technologiesGene discovery effortsCandidate gene association studiesHuman Genome ProjectGenetics of autismGene association studiesGenome ProjectAssociation studiesDiscovery effortsSpecific genetic etiologiesGenetic originGenetic etiologyRecent linkageGenetic disordersSolid cluesRecent advancesDeoxyribonucleic acid samplesGeneticsHeritabilityPotential contributionPromising avenueAutism spectrum disorderAutismo: genética
Gupta AR, State MW. Autismo: genética. Brazilian Journal Of Psychiatry 2006, 28: s29-s38. PMID: 16791389, DOI: 10.1590/s1516-44462006000500005.Peer-Reviewed Original ResearchConceptsMultiple interacting lociHuman Genome ProjectCandidate gene studiesGene discoveryInteracting lociGenome ProjectGenomic technologiesResults of linkageGene studiesLikely involvementGenetic etiologyPhenotypic heterogeneityGenetic disordersSolid cluesBiological originRecent progressLociHeritabilityGenética