2024
CC2D1A causes ciliopathy, intellectual disability, heterotaxy, renal dysplasia, and abnormal CSF flow
Kim A, Sakin I, Viviano S, Tuncel G, Aguilera S, Goles G, Jeffries L, Ji W, Lakhani S, Kose C, Silan F, Oner S, Kaplan O, Group M, Ergoren M, Mishra-Gorur K, Gunel M, Sag S, Temel S, Deniz E. CC2D1A causes ciliopathy, intellectual disability, heterotaxy, renal dysplasia, and abnormal CSF flow. Life Science Alliance 2024, 7: e202402708. PMID: 39168639, PMCID: PMC11339347, DOI: 10.26508/lsa.202402708.Peer-Reviewed Original ResearchConceptsDevelopmental disabilitiesIntellectual disabilityPatient-derived fibroblastsMidbrain regionsBrain developmentDefective ciliogenesisCSF circulationDisabilityCSF flowAbnormal CSF flowNervous system developmentMutant tadpolesCiliated tissuesMultiple model systemsVariant functionPronephric ductUnrelated familiesCC2D1AExpression patternsCiliogenesisRenal dysplasiaLeft-right organizerFunctional analysisDisease mechanismsBrainUnraveling the genetic tapestry of pediatric sarcomeric cardiomyopathies and masquerading phenocopies in Jordan
Azab B, Aburizeg D, Shaaban S, Ji W, Mustafa L, Isbeih N, Al-Akily A, Mohammad H, Jeffries L, Khokha M, Lakhani S, Al-Ammouri I. Unraveling the genetic tapestry of pediatric sarcomeric cardiomyopathies and masquerading phenocopies in Jordan. Scientific Reports 2024, 14: 15141. PMID: 38956129, PMCID: PMC11219879, DOI: 10.1038/s41598-024-64921-9.Peer-Reviewed Original ResearchConceptsExome sequencingSarcomere-related genesMitochondrial-related diseasesAt-risk family membersGenetic architectureGenetic landscapePathogenic variantsGene panelPediatric cardiomyopathyMolecular underpinningsGenetic testingPhenocopiesSarcomeric cardiomyopathiesGenesSequenceStorage disorderFamily membersAt-riskVariantsEarly interventionExomeFamilyGlycogen storage disorderHypertrophic cardiomyopathyCardiomyopathy
2023
SMC5 Plays Independent Roles in Congenital Heart Disease and Neurodevelopmental Disability
O'Brien M, Pryzhkova M, Lake E, Mandino F, Shen X, Karnik R, Atkins A, Xu M, Ji W, Konstantino M, Brueckner M, Ment L, Khokha M, Jordan P. SMC5 Plays Independent Roles in Congenital Heart Disease and Neurodevelopmental Disability. International Journal Of Molecular Sciences 2023, 25: 430. PMID: 38203602, PMCID: PMC10779392, DOI: 10.3390/ijms25010430.Peer-Reviewed Original ResearchSequence variants in DLX5, HOXD13 and 445 kb‐microduplication surrounding BTRC cause split‐hand/foot malformation in three different families
Abdullah, Hussain S, Ji W, Khan H, Mis E, Mushtaq R, Chodhary M, Raza M, Jan A, Ullah I, Khokha M, Lakhani S, Ahmad W. Sequence variants in DLX5, HOXD13 and 445 kb‐microduplication surrounding BTRC cause split‐hand/foot malformation in three different families. Clinical Genetics 2023, 105: 109-111. PMID: 37776184, DOI: 10.1111/cge.14430.Peer-Reviewed Original ResearchIntegrated exome sequencing and microarray analyses detected genetic defects and underlying pathways of hepatocellular carcinoma
Chong M, Knight J, Peng G, Ji W, Chai H, Lu Y, Wu S, Li P, Hu Q. Integrated exome sequencing and microarray analyses detected genetic defects and underlying pathways of hepatocellular carcinoma. Cancer Genetics 2023, 276: 30-35. PMID: 37418972, DOI: 10.1016/j.cancergen.2023.06.002.Peer-Reviewed Original ResearchConceptsTumor mutation burdenWhole-exome sequencingGrade IIIHepatocellular carcinomaCNA burdenCase seriesBarcelona Clinic Liver Cancer stageExome sequencingBCLC stage CLiver Cancer stageEdmondson-Steiner gradingLarge case seriesGenetic defectsHigher CNA burdenAdjacent nontumor tissuesΒ-catenin pathwayBetter prognosisClinicopathologic findingsPoor prognosisClinicopathologic classificationCancer stageSurvival statusMutation burdenStage CPrognostic prediction
2022
Fetal akinesia deformation sequence syndrome associated with recessive TTN variants
Alkhunaizi E, Martin N, Jelin A, Rosner M, Bailey D, Steiner L, Lakhani S, Ji W, Katzman P, Forster K, Jarinova O, Shannon P, Chitayat D, Consortium C. Fetal akinesia deformation sequence syndrome associated with recessive TTN variants. American Journal Of Medical Genetics Part A 2022, 191: 760-769. PMID: 36495114, PMCID: PMC9928776, DOI: 10.1002/ajmg.a.63071.Peer-Reviewed Original ResearchConceptsArthrogryposis multiplex congenitaPathogenic variantsCompound heterozygous pathogenic variantsNext-generation gene sequencingHeterozygous pathogenic variantsSkeletal muscle abnormalitiesVariety of disordersFetal exposureClinical manifestationsPeripheral nervesSpinal cordLive birthsMultiplex congenitaHigh incidenceMuscle abnormalitiesRecurrence riskNeuromuscular junctionPhenotypic presentationSingle gene disordersTTN variantsConnective tissueRecessive variantsRecessive inheritanceObligate carriersMolecular diagnosisA retrospective cohort analysis of the Yale pediatric genomics discovery program
Al‐Ali S, Jeffries L, Faustino EVS, Ji W, Mis E, Konstantino M, Zerillo C, Jiang Y, Spencer‐Manzon M, Bale A, Zhang H, McGlynn J, McGrath JM, Tremblay T, Brodsky NN, Lucas CL, Pierce R, Deniz E, Khokha MK, Lakhani SA. A retrospective cohort analysis of the Yale pediatric genomics discovery program. American Journal Of Medical Genetics Part A 2022, 188: 2869-2878. PMID: 35899841, PMCID: PMC9474639, DOI: 10.1002/ajmg.a.62918.Peer-Reviewed Original ResearchConceptsRetrospective cohort analysisNext-generation sequencingCohort analysisSystem abnormalitiesImmune system abnormalitiesCardiovascular system abnormalitiesFunctional molecular analysesNovel genesPrecise molecular diagnosisClinical characteristicsFurther genetic evaluationDiscovery programsComplex patientsMultisystem diseaseDisease genesPediatric providersRare genetic diseaseNew diagnosisPhenotype relationshipsPatientsGenetic diseasesMolecular analysisDiagnosisParticipant demographicsNGS resultsTBX5 variant with the novel phenotype of mixed-type total anomalous pulmonary venous return in Holt-Oram Syndrome and variable intrafamilial heart defects
Azab B, Aburizeg D, Ji W, Jeffries L, Isbeih NJ, Al-Akily AS, Mohammad H, Abu Osba Y, Shahin MA, Dardas Z, Hatmal MM, Al-Ammouri I, Lakhani S. TBX5 variant with the novel phenotype of mixed-type total anomalous pulmonary venous return in Holt-Oram Syndrome and variable intrafamilial heart defects. Molecular Medicine Reports 2022, 25: 210. PMID: 35514310, PMCID: PMC9133962, DOI: 10.3892/mmr.2022.12726.Peer-Reviewed Original ResearchConceptsHolt-Oram syndromeMolecular etiologyT-box domainWild-type proteinT-box transcription factorGenetic investigationsTrio-based whole-exome sequencingNonsense variantTranscription factorsIntrafamilial levelTBX5 proteinNovel phenotypesProtein's abilityFirst genetic investigationMutant dimersNon-syndromic presentationsProtein modelingWhole-exome sequencingComplete phenotypingSubsequent genetic investigationsTbx5Novel associationsPowerful approachWide phenotypic spectrumNon-covalent bonds
2020
Ring chromosome formation by intra‐strand repairing of subtelomeric double stand breaks and clinico‐cytogenomic correlations for ring chromosome 9
Chai H, Ji W, Wen J, DiAdamo A, Grommisch B, Hu Q, Szekely AM, Li P. Ring chromosome formation by intra‐strand repairing of subtelomeric double stand breaks and clinico‐cytogenomic correlations for ring chromosome 9. American Journal Of Medical Genetics Part A 2020, 182: 3023-3028. PMID: 32978894, DOI: 10.1002/ajmg.a.61890.Peer-Reviewed Original ResearchThe latest FADS: Functional analysis of GLDN patient variants and classification of GLDN‐associated AMC as a type of viable fetal akinesia deformation sequence
Mis EK, Al‐Ali S, Ji W, Spencer‐Manzon M, Konstantino M, Khokha MK, Jeffries L, Lakhani SA. The latest FADS: Functional analysis of GLDN patient variants and classification of GLDN‐associated AMC as a type of viable fetal akinesia deformation sequence. American Journal Of Medical Genetics Part A 2020, 182: 2291-2296. PMID: 32812332, DOI: 10.1002/ajmg.a.61783.Peer-Reviewed Original ResearchConceptsFetal akinesia deformation sequenceArthrogryposis multiplex congenitaCohort of patientsScope of illnessPulmonary hypoplasiaAdditional patientsClinical featuresNeonatal supportNervous system developmentMultiplex congenitaCongenital contracturesPatientsHeterogenous conditionRecessive variantsPatient variantsFunctional evidenceCohortNovel variantsContractureFunctional dataSyndromeHypoplasiaIllnessVariantsFindingsDYNC1H1‐related disorders: A description of four new unrelated patients and a comprehensive review of previously reported variants
Amabile S, Jeffries L, McGrath JM, Ji W, Spencer‐Manzon M, Zhang H, Lakhani SA. DYNC1H1‐related disorders: A description of four new unrelated patients and a comprehensive review of previously reported variants. American Journal Of Medical Genetics Part A 2020, 182: 2049-2057. PMID: 32656949, DOI: 10.1002/ajmg.a.61729.Peer-Reviewed Original ResearchConceptsSpinal muscular atrophyIntellectual disabilityUnrelated patientsSingle-center experienceNew unrelated patientsCenter experienceDYNC1H1 geneCNS disordersCombined disordersCortical developmentDisease-causing variantsVariable syndromeNeuromuscular diseaseNeuromuscular phenotypePatientsMuscular atrophyHeterozygous variantsDYNC1H1Medical literatureCharcot-MarieDisordersType 20Novel variantsPhenotypeReportNovel compound heterozygous variants in NHLRC2 in a patient with FINCA syndrome
Brodsky NN, Boyarchuk O, Kovalchuk T, Hariyan T, Rice A, Ji W, Khokha M, Lakhani S, Lucas CL. Novel compound heterozygous variants in NHLRC2 in a patient with FINCA syndrome. Journal Of Human Genetics 2020, 65: 911-915. PMID: 32435055, DOI: 10.1038/s10038-020-0776-0.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAngiomatosisBrain NeoplasmsCardiomegalyChild, PreschoolExome SequencingFibrosisHeterozygoteHumansIntracellular Signaling Peptides and ProteinsLung DiseasesMaleModels, MolecularNeurodegenerative DiseasesPedigreePoint MutationProtein ConformationProtein DomainsSequence AlignmentSequence Homology, Amino AcidSyndromeConceptsWhole-exome sequencingNovel compound heterozygous variantsCompound heterozygous variantsUkrainian patientsClinical featuresNovel variantsNew patientsHealthy humansCompound heterozygous combinationPatientsHeterozygous variantsSyndromeFinnish childrenNHLRC2Sanger sequencingFibrosisDiseaseGnomAD databaseN-terminal thioredoxinCentral regulatorVariantsNeurodegenerationDe novo damaging variants associated with congenital heart diseases contribute to the connectome
Ji W, Ferdman D, Copel J, Scheinost D, Shabanova V, Brueckner M, Khokha MK, Ment LR. De novo damaging variants associated with congenital heart diseases contribute to the connectome. Scientific Reports 2020, 10: 7046. PMID: 32341405, PMCID: PMC7184603, DOI: 10.1038/s41598-020-63928-2.Peer-Reviewed Original ResearchMeSH KeywordsConnectomeDNA HelicasesDNA-Binding ProteinsExomeFemaleHeart Defects, CongenitalHistone-Lysine N-MethyltransferaseHomeodomain ProteinsHumansMaleMi-2 Nucleosome Remodeling and Deacetylase ComplexMutationMutation, MissenseMyeloid-Lymphoid Leukemia ProteinNerve Tissue ProteinsProtein Tyrosine Phosphatase, Non-Receptor Type 11Receptor, Notch1ConceptsDe novo variantsNDD genesCardiac patterningDe novo damaging variantsDamaging de novo variantsCHD genesDamaging variantsGenesProtein truncatingGenetic originNovo variantsGene mutationsPatterningRecent studiesDendritic developmentVariantsMutationsNeurogenesisSynaptogenesisBonferroni correctionA novel variant in MAP3K7 associated with an expanded cardiospondylocarpofacial syndrome phenotype
AbuBakr F, Jeffries L, Ji W, McGrath JM, Lakhani SA. A novel variant in MAP3K7 associated with an expanded cardiospondylocarpofacial syndrome phenotype. Molecular Case Studies 2020, 6: mcs.a005207. PMID: 32299812, PMCID: PMC7304360, DOI: 10.1101/mcs.a005207.Peer-Reviewed Original ResearchConceptsCardiospondylocarpofacial syndromePathogenic variantsValvular heart diseaseDistinctive cutaneous findingsLikely pathogenic variantsCutaneous findingsFlexion contractureHeart diseaseSecond toePatientsShort statureGrowth factorProtein kinase kinase kinase 7Facial dysmorphismSyndrome phenotypeMissense variantsSyndromeKinase 7Kinase 1Novel variantsSixth variantSplice variantsPhenotypeFrame deletionInflammationNovel truncating mutations in CTNND1 cause a dominant craniofacial and cardiac syndrome
Alharatani R, Ververi A, Beleza-Meireles A, Ji W, Mis E, Patterson QT, Griffin JN, Bhujel N, Chang CA, Dixit A, Konstantino M, Healy C, Hannan S, Neo N, Cash A, Li D, Bhoj E, Zackai EH, Cleaver R, Baralle D, McEntagart M, Newbury-Ecob R, Scott R, Hurst JA, Au PYB, Hosey MT, Khokha M, Marciano DK, Lakhani SA, Liu KJ. Novel truncating mutations in CTNND1 cause a dominant craniofacial and cardiac syndrome. Human Molecular Genetics 2020, 29: 1900-1921. PMID: 32196547, PMCID: PMC7372553, DOI: 10.1093/hmg/ddaa050.Peer-Reviewed Original ResearchConceptsCell-cell junctionsNovel protein-truncating variantsP120-catenin proteinProtein-truncating variantsNext-generation sequencingTranscriptional signalingP120-cateninCRISPR/Epithelial-mesenchymal transitionSubset of phenotypesDevelopmental roleLimb dysmorphologiesAdditional phenotypesHuman diseasesCTNND1Conditional deletionDe novoTruncating mutationsBlepharocheilodontic syndromeEpithelial integrityNovel truncating mutationCraniofacial dysmorphismPhenotypeCleft palateNeurodevelopmental disorders
2019
Identification of a novel MYOC variant in a Hispanic family with early-onset primary open-angle glaucoma with elevated intraocular pressure
Criscione J, Ji W, Jeffries L, McGrath JM, Soloway S, Pusztai L, Lakhani S. Identification of a novel MYOC variant in a Hispanic family with early-onset primary open-angle glaucoma with elevated intraocular pressure. Molecular Case Studies 2019, 5: a004374. PMID: 31653660, PMCID: PMC6913140, DOI: 10.1101/mcs.a004374.Peer-Reviewed Original ResearchConceptsPrimary open-angle glaucomaEarly-onset primary open-angle glaucomaOpen-angle glaucomaGenetic testingElevated intraocular pressureJuvenile-onset primary open-angle glaucomaFurther genetic testingAutosomal dominant patternFemale patientsIntraocular pressureIrreversible blindnessFamily historyEye disordersMYOC variantsMyocilin geneGlaucomaPOAG phenotypeHispanic familiesOlfactomedin domainPrevious findingsDominant patternVariant segregatesMost casesPatientsEtiologyIdentification of novel mutations and phenotype in the steroid resistant nephrotic syndrome gene NUP93: a case report
Sandokji I, Marquez J, Ji W, Zerillo CA, Konstantino M, Lakhani SA, Khokha MK, Warejko JK. Identification of novel mutations and phenotype in the steroid resistant nephrotic syndrome gene NUP93: a case report. BMC Nephrology 2019, 20: 271. PMID: 31315584, PMCID: PMC6637548, DOI: 10.1186/s12882-019-1458-z.Peer-Reviewed Case Reports and Technical NotesSiblings with lethal primary pulmonary hypoplasia and compound heterozygous variants in the AARS2 gene: further delineation of the phenotypic spectrum
Kiraly-Borri C, Jevon G, Ji W, Jeffries L, Ricciardi JL, Konstantino M, Ackerman KG, Lakhani SA. Siblings with lethal primary pulmonary hypoplasia and compound heterozygous variants in the AARS2 gene: further delineation of the phenotypic spectrum. Molecular Case Studies 2019, 5: a003699. PMID: 30819764, PMCID: PMC6549552, DOI: 10.1101/mcs.a003699.Peer-Reviewed Original ResearchConceptsPrimary pulmonary hypoplasiaPulmonary hypoplasiaPhenotypic spectrumEvidence of cardiomyopathyPremature ovarian insufficiencyAbsence of cardiomyopathyCompound heterozygous variantsWhole-exome sequencingOvarian insufficiencyAARS2 geneCompound HeterozygousHeterozygous variantsCardiomyopathyNewborn siblingsCarrier statusFurther delineationHypoplasiaUnaffected siblingsMitochondrial cardiomyopathySiblingsFirst reportLeukoencephalopathy
2018
A homozygous variant in RRM2B is associated with severe metabolic acidosis and early neonatal death
Penque BA, Su L, Wang J, Ji W, Bale A, Luh F, Fulbright RK, Sarmast U, Sega AG, Konstantino M, Spencer-Manzon M, Pierce R, Yen Y, Lakhani SA. A homozygous variant in RRM2B is associated with severe metabolic acidosis and early neonatal death. European Journal Of Medical Genetics 2018, 62: 103574. PMID: 30439532, DOI: 10.1016/j.ejmg.2018.11.008.Peer-Reviewed Original ResearchA Novel Pathogenic UGT1A1 Variant in a Sudanese Child with Type I Crigler-Najjar Syndrome
Elfar W, Järvinen E, Ji W, Mosorin J, Sega AG, Iuga AC, Lobritto SJ, Konstantino M, Chan A, Finel M, Lakhani SA. A Novel Pathogenic UGT1A1 Variant in a Sudanese Child with Type I Crigler-Najjar Syndrome. Drug Metabolism And Disposition 2018, 47: dmd.118.084368. PMID: 30385458, DOI: 10.1124/dmd.118.084368.Peer-Reviewed Original ResearchConceptsUridine diphosphate glucuronosyltransferasesCrigler-Najjar syndromeSudanese childrenType I Crigler-Najjar syndromeSevere unconjugated hyperbilirubinemiaNovel homozygous variantClinical genetic testingAutosomal recessive disorderLiver transplantationClinical featuresPatient ethnicityHepatic enzymesUnconjugated hyperbilirubinemiaGlucuronidation activityGenetic testingBody's abilityHomozygous variantBilirubin conjugationRecessive disorderPatient variantsUGT1A1 variantsDisease phenotypeSanger sequencingUGT functionSyndrome