2021
Severe multisystem pathology, metabolic acidosis, mitochondrial dysfunction, and early death associated with an X-linked AIFM1 variant
Moss T, May M, Flanagan-Steet H, Caylor R, Jiang YH, McDonald M, Friez M, McConkie-Rosell A, Steet R. Severe multisystem pathology, metabolic acidosis, mitochondrial dysfunction, and early death associated with an X-linked AIFM1 variant. Molecular Case Studies 2021, 7: a006081. PMID: 34117073, PMCID: PMC8208043, DOI: 10.1101/mcs.a006081.Peer-Reviewed Original ResearchConceptsMitochondrial flavin adenine dinucleotideCaspase-independent typeRespiratory complex assemblyFunctional studiesApoptosis inducer staurosporineGalactose-containing mediumNicotinamide adenine dinucleotide (phosphate) oxidoreductaseApoptotic stimuliSteady-state levelsComplex assemblyGene productsReactive oxygen speciesMitochondrial deficiencyTissue-specific effectsNuclear condensationFlavin adenine dinucleotideReduced abundanceMitochondrial complexesComplex IPyruvate dehydrogenaseMitochondrial dysfunctionPatient cellsExome sequencingOxygen speciesElevated sensitivity
2020
Subacute 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
2019
De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies
Holt RJ, Young RM, Crespo B, Ceroni F, Curry CJ, Bellacchio E, Bax DA, Ciolfi A, Simon M, Fagerberg CR, van Binsbergen E, De Luca A, Memo L, Dobyns WB, Mohammed AA, Clokie SJH, Seco C, Jiang YH, Sørensen KP, Andersen H, Sullivan J, Powis Z, Chassevent A, Smith-Hicks C, Petrovski S, Antoniadi T, Shashi V, Gelb BD, Wilson SW, Gerrelli D, Tartaglia M, Chassaing N, Calvas P, Ragge NK. De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies. American Journal Of Human Genetics 2019, 105: 640-657. PMID: 31402090, PMCID: PMC6731360, DOI: 10.1016/j.ajhg.2019.07.005.Peer-Reviewed Original ResearchConceptsF-box (SCF) ubiquitin ligase complexF-box proteinsMultiple developmental processesPectoral fin developmentSubstrate-binding domainUbiquitin ligase complexGli transcription factorsHuman developmental disordersSecond-generation sequencingDe novo missense variantsWhole-genome sequencingSkp1-CullinDevelopmental phenotypesLigase complexFin developmentResidue clustersTranscription factorsProteasomal degradationEye developmentNovo missense variantsDevelopmental processesFBXW11Genome sequencingEmbryonic tissuesUnderdeveloped eyes
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 genesCharacteristics of undiagnosed diseases network applicants: implications for referring providers
Walley NM, Pena LDM, Hooper SR, Cope H, Jiang YH, McConkie-Rosell A, Sanders C, Schoch K, Spillmann RC, Strong K, McCray AT, Mazur P, Esteves C, LeBlanc K, Undiagnosed Diseases Network, Wise AL, Shashi V. Characteristics of undiagnosed diseases network applicants: implications for referring providers. BMC Health Services Research 2018, 18: 652. PMID: 30134969, PMCID: PMC6106923, DOI: 10.1186/s12913-018-3458-2.Peer-Reviewed Original ResearchConceptsObjective findingsSubjective symptomsUndiagnosed diseaseUndiagnosed Diseases NetworkAccepted applicationFurther diagnostic processesPrimary care providersPrimary care physiciansSystematic retrospective reviewSubspecialty consultsPrimary outcomeCare physiciansRetrospective reviewSpecialty consultationReferral lettersSpecialist consultationFunctional disordersCare providersSubjective findingsDemographic dataSymptomsReferral sourceOlder individualsDiagnostic effortsPatientsFurther evidence for the involvement of EFL1 in a Shwachman–Diamond-like syndrome and expansion of the phenotypic features
Tan Q, Cope H, Spillmann RC, Stong N, Jiang YH, McDonald MT, Rothman JA, Butler MW, Frush DP, Lachman RS, Lee B, Bacino CA, Bonner MJ, McCall CM, Pendse AA, Walley N, Network U, Shashi V, Pena L, Alejandro M, Azamian M, Bacino C, Balasubramanyam A, Bostwick B, Burrage L, Chen S, Clark G, Craigen W, Dhar S, Emrick L, Goldman A, Hanchard N, Jamal F, Karaviti L, Lalani S, Lee B, Lewis R, Marom R, Moretti P, Murdock D, Nicholas S, Orange J, Orengo J, Posey J, Potocki L, Rosenfeld J, Samson S, Scott D, Tran A, Vogel T, Bellen H, Wangler M, Yamamoto S, Eng C, Muzny D, Ward P, Yang Y, Goldstein D, Stong N, Cope H, Jiang Y, McConkie-Rosell A, Pena L, Schoch K, Shashi V, Spillmann R, Sullivan J, Tan Q, Walley N, Aaron A, Beggs A, Berry G, Briere L, Cooper C, Donnell-Fink L, Fieg E, High F, Korrick S, Krier J, Lincoln S, Loscalzo J, Maas R, MacRae C, Pallais J, Rodan L, Silverman E, Stoler J, Sweetser D, Walker M, Walsh C, Esteves C, Glanton E, Holm I, Kohane I, McCray A, Might M, LeBlanc K, Bick D, Birch C, Boone B, Brown D, Dorset D, Jones A, Lazar J, Levy S, May T, Newberry J, Worthey E, Batzli G, Colley H, Dayal J, Eckstein D, Gould S, Howerton E, Krasnewich D, Mamounas L, Manolio T, Mulvihill J, Urv T, Wise A, Brush M, Gourdine J, Haendel M, Koeller D, Kyle J, Metz T, Waters K, Webb-Robertson B, Ashley E, Bernstein J, Bonner D, Coakley T, Davidson J, Dries A, Enns G, Fernandez L, Fisher P, Friedman N, Hom J, Huang Y, Kohler J, Majcherska M, Marwaha S, McCormack C, Merker J, Reuter C, Sampson J, Smith K, Waggott D, Wheeler M, Zastrow D, Zhao C, Allard P, Barseghyan H, Butte M, Dell'Angelica E, Dipple K, Dorrani N, Douine E, Eskin A, Fogel B, Lee H, Loo S, Martin M, Martínez-Agosto J, Nelson S, Palmer C, Papp J, Parker N, Signer R, Sinsheimer J, Vilain E, Wan J, Yoon A, Zheng A, Behnam B, Burke E, D'Souza P, Davids M, Draper D, Estwick T, Ferreira C, Godfrey R, Groden C, Johnston J, Lau C, Macnamara E, Maduro V, Markello T, Morimoto M, Murphy J, Nehrebecky M, Novacic D, Pusey B, Sharma P, CamiloToro, Wahl C, Yu G, Gropman A, Baker E, Adams D, Gahl W, Malicdan M, Tifft C, Wolfe L, Yang J, Postlethwait J, Westerfield M, Bican A, Brokamp E, Duncan L, Hamid R, Kozuira M, Newman J, Phillips J, Rives L, Robertson A, Shakachite L, Cogan J. Further evidence for the involvement of EFL1 in a Shwachman–Diamond-like syndrome and expansion of the phenotypic features. Molecular Case Studies 2018, 4: a003046. PMID: 29970384, PMCID: PMC6169826, DOI: 10.1101/mcs.a003046.Peer-Reviewed Original ResearchConceptsShwachman-Diamond syndromeBone marrow abnormalitiesShwachman-DiamondPediatric patientsClinical featuresPancreatic insufficiencyDe novo variantsLike syndromeMarrow abnormalitiesMetaphyseal abnormalitiesPathogenic variantsBiallelic variantsMetaphyseal dysplasiaWhole-exome sequencing dataNovo variantsRecent evidenceEquivocal evidenceCausative genesPatientsPhenotypic featuresSyndromeAbnormalitiesPhenotypeFurther evidenceInitial indication5-Hydroxymethylcytosine alterations in the human postmortem brains of autism spectrum disorder
Cheng Y, Li Z, Manupipatpong S, Lin L, Li X, Xu T, Jiang YH, Shu Q, Wu H, Jin P. 5-Hydroxymethylcytosine alterations in the human postmortem brains of autism spectrum disorder. Human Molecular Genetics 2018, 27: 2955-2964. PMID: 29790956, PMCID: PMC6097011, DOI: 10.1093/hmg/ddy193.Peer-Reviewed Original ResearchConceptsEssential epigenetic markGenome-wide distributionCell-cell communicationEpigenetic marksDisease association analysisPsychiatric genesGenomic DNAAssociation analysisDhMRsPathogenesis of ASDHuman postmortem brainGenesHeterogeneous phenotypesPostmortem cerebellumEarly development stagesCI functionDevelopment stagesUnderlying mechanismPostmortem brainsClear underlying mechanismDNAPhenotypeSignificant fractionGroup of syndromesLarge group
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 childrenModifying the Autism Spectrum Rating Scale (6–18 years) to a Chinese Context: An Exploratory Factor Analysis
Zhou H, Zhang L, Luo X, Wu L, Zou X, Xia K, Wang Y, Xu X, Ge X, Jiang YH, Fombonne E, Yan W, Wang Y. Modifying the Autism Spectrum Rating Scale (6–18 years) to a Chinese Context: An Exploratory Factor Analysis. Neuroscience Bulletin 2017, 33: 175-182. PMID: 28238114, PMCID: PMC5360853, DOI: 10.1007/s12264-017-0104-7.Peer-Reviewed Original Research
2016
Chromosomal microarray analysis in clinical evaluation of neurodevelopmental disorders-reporting a novel deletion of SETDB1 and illustration of counseling challenge
Xu Q, Goldstein J, Wang P, Gadi IK, Labreche H, Rehder C, Wang WP, McConkie A, Xu X, Jiang YH. Chromosomal microarray analysis in clinical evaluation of neurodevelopmental disorders-reporting a novel deletion of SETDB1 and illustration of counseling challenge. Pediatric Research 2016, 80: 371-381. PMID: 27119313, PMCID: PMC5382808, DOI: 10.1038/pr.2016.101.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAlgorithmsAutistic DisorderChildChild, PreschoolChromatinComparative Genomic HybridizationCounselingDevelopmental DisabilitiesDNA Copy Number VariationsFemaleGene DeletionGene RearrangementHistone-Lysine N-MethyltransferaseHumansInfantIntellectual DisabilityMaleMicroarray AnalysisNeurodevelopmental DisordersPedigreeProtein MethyltransferasesConceptsNeurodevelopmental disordersAutism spectrum disorderIntellectual disabilityDevelopmental disabilitiesCopy number variationsChromosomal microarray analysisEtiological evaluationClinical evaluationClinical significanceUnknown significanceCNV analysisGenetics clinicEtiology of ASDCounseling familiesDisordersVariable penetranceClinicMicroarray analysisNovel deletionSpectrum disorderDisabilityCounseling challengesFurther supportEtiologyCohort
2015
Validity and reliability analysis of the Chinese parent version of the Autism Spectrum Rating Scale (6–18 years)
Zhou H, Zhang L, Wu L, Zou X, Luo X, Xia K, Wang Y, Xu X, Ge X, Sun C, Deng H, Fombonne E, Jiang YH, Yan W, Wang Y. Validity and reliability analysis of the Chinese parent version of the Autism Spectrum Rating Scale (6–18 years). Psychiatry Research 2015, 230: 255-261. PMID: 26384573, DOI: 10.1016/j.psychres.2015.09.003.Peer-Reviewed Original ResearchConceptsParent versionRating ScaleCommunity-based subjectsClinic-based participantsChinese childrenAutism spectrum disorderTest-retest reliabilityReceiver Operating Characteristic (ROC) analysisOperating characteristics analysisTotal scoreSocial Responsiveness ScaleChinese versionSignificant differencesConcurrent validityValid toolSymptomsAutistic symptomsInternal consistencyConstruct validityCharacteristic analysisSpectrum disorderDiscriminant validityPractical considerations in the clinical application of whole‐exome sequencing
Shashi V, McConkie‐Rosell A, Schoch K, Kasturi V, Rehder C, Jiang YH, Goldstein DB, McDonald MT. Practical considerations in the clinical application of whole‐exome sequencing. Clinical Genetics 2015, 89: 173-181. PMID: 25678066, DOI: 10.1111/cge.12569.Peer-Reviewed Original ResearchConceptsWhole-exome sequencingClinical informationMedical genetics practiceWES resultsUtility of WESMolecular diagnostic rateClinical whole exome sequencingMedical geneticistsAdditional laboratory testsRetrospective studyDefinite diagnosisClinical dataLikely diagnosisPossible diagnosisClinical categoriesDiagnostic rateFurther laboratory testingPatientsUncertain significanceGenetic practiceDiagnosisClinical applicationFamily membersLaboratory resultsLaboratory testing
2013
Deficiency of Asparagine Synthetase Causes Congenital Microcephaly and a Progressive Form of Encephalopathy
Ruzzo EK, Capo-Chichi JM, Ben-Zeev B, Chitayat D, Mao H, Pappas AL, Hitomi Y, Lu YF, Yao X, Hamdan FF, Pelak K, Reznik-Wolf H, Bar-Joseph I, Oz-Levi D, Lev D, Lerman-Sagie T, Leshinsky-Silver E, Anikster Y, Ben-Asher E, Olender T, Colleaux L, Décarie JC, Blaser S, Banwell B, Joshi RB, He XP, Patry L, Silver RJ, Dobrzeniecka S, Islam MS, Hasnat A, Samuels ME, Aryal DK, Rodriguiz RM, Jiang YH, Wetsel WC, McNamara JO, Rouleau GA, Silver DL, Lancet D, Pras E, Mitchell GA, Michaud JL, Goldstein DB. Deficiency of Asparagine Synthetase Causes Congenital Microcephaly and a Progressive Form of Encephalopathy. Neuron 2013, 80: 429-441. PMID: 24139043, PMCID: PMC3820368, DOI: 10.1016/j.neuron.2013.08.013.Peer-Reviewed Original ResearchConceptsCongenital microcephalyProgressive cerebral atrophyStructural brain abnormalitiesCerebral atrophyNeuronal damageEnhanced excitabilityIntractable seizuresAsparagine depletionNeurological impairmentBrain abnormalitiesCortical thicknessLoss of functionASNS deficiencyProgressive formMutant micePatient phenotypesIntellectual disabilityASNS geneMicrocephalyMissense mutationsBrainDeficiencyAspartate/MutationsRecessive mutations
2010
Pseudometabolic presentation of dystrophinopathy due to a missense mutation
Veerapandiyan A, Shashi V, Jiang Y, Gallentine W, Schoch K, Smith E. Pseudometabolic presentation of dystrophinopathy due to a missense mutation. Muscle & Nerve 2010, 42: 975-979. PMID: 21104870, PMCID: PMC5506871, DOI: 10.1002/mus.21823.Peer-Reviewed Original ResearchConceptsMuscle stiffnessNormal neurological examinationRetrospective chart reviewIdentical point mutationMissense mutationsWestern blot analysisExertional myalgiaChart reviewNeurological examinationClinical findingsExercise intoleranceRecurrent rhabdomyolysisMetabolic myopathyClinical reportsDMD geneUnrelated boysInaccurate diagnosisMyalgiaRhabdomyolysisFurther studiesBlot analysisSpecific mutationsExon 15Amino acid substitutionsBoys