0000000000187698

AUTHOR

Usha Kini

showing 5 related works from this author

Mutation-specific pathophysiological mechanisms define different neurodevelopmental disorders associated with SATB1 dysfunction

2021

AbstractWhereas large-scale statistical analyses can robustly identify disease-gene relationships, they do not accurately capture genotype-phenotype correlations or disease mechanisms. We use multiple lines of independent evidence to show that different variant types in a single gene,SATB1, cause clinically overlapping but distinct neurodevelopmental disorders. Clinical evaluation of 42 individuals carryingSATB1variants identified overt genotype-phenotype relationships, associated with different pathophysiological mechanisms, established by functional assays. Missense variants in the CUT1 and CUT2 DNA-binding domains result in stronger chromatin binding, increased transcriptional repression…

0301 basic medicineMaleModels MolecularMISSENSE MUTATIONSCHROMATINTranscription GeneticCellMedizinDiseaseHaploinsufficiencymedicine.disease_cause0302 clinical medicineMissense mutationde novo variantsGenetics (clinical)INTERLEUKIN-2seizuresGenetics0303 health sciencesMutationChromatin bindingneurodevelopmental disordersMetabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6]SATB1Phenotypemedicine.anatomical_structureintellectual disabilityFemaleHaploinsufficiencyteeth abnormalitiesProtein BindingNeuroinformaticsEXPRESSIONGENESMutation MissenseBiologyBINDING PROTEINREGION03 medical and health sciencesSATB1Protein DomainsReportGeneticsmedicineHPO-based analysisHumansGenetic Association StudiesHpo-based Analysis ; Satb1 ; Cell-based Functional Assays ; De Novo Variants ; Intellectual Disability ; Neurodevelopmental Disorders ; Seizures ; Teeth Abnormalities030304 developmental biology[SDV.GEN]Life Sciences [q-bio]/GeneticsNeurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7]Matrix Attachment Region Binding Proteins030104 developmental biologyNeurodevelopmental DisordersMutationNanomedicine Radboud Institute for Molecular Life Sciences [Radboudumc 19]030217 neurology & neurosurgerycell-based functional assays
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PURA- Related Developmental and Epileptic Encephalopathy: Phenotypic and Genotypic Spectrum

2021

Background and ObjectivesPurine-rich element-binding protein A (PURA) gene encodes Pur-α, a conserved protein essential for normal postnatal brain development. Recently, a PURA syndrome characterized by intellectual disability, hypotonia, epilepsy, and dysmorphic features was suggested. The aim of this study was to define and expand the phenotypic spectrum of PURA syndrome by collecting data, including EEG, from a large cohort of affected patients.MethodsData on unpublished and published cases were collected through the PURA Syndrome Foundation and the literature. Data on clinical, genetic, neuroimaging, and neurophysiologic features were obtained.ResultsA cohort of 142 patients was include…

Pediatricsmedicine.medical_specialtySocio-culturale[SDV.GEN] Life Sciences [q-bio]/GeneticsElectroencephalographyEpilepsyDevelopmental and Epileptic EncephalopathyIntellectual disabilitymedicineGenetics (clinical)feeding difficulties[SDV.GEN]Life Sciences [q-bio]/Geneticsmedicine.diagnostic_testbusiness.industryfungimedicine.diseaseHypotoniaEpileptic spasmsNeonatal hypotonianeonatal hypotoniaEpilepsy syndromesCohortepilepsyNeurology (clinical)medicine.symptombusiness
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NOTCH, a new signaling pathway implicated in holoprosencephaly.

2011

International audience; Genetics of Holoprosencephaly (HPE), a congenital malformation of the developing human forebrain, is due to multiple genetic defects. Most genes that have been implicated in HPE belong to the sonic hedgehog signaling pathway. Here we describe a new candidate gene isolated from array comparative genomic hybridization redundant 6qter deletions, DELTA Like 1 (DLL1), which is a ligand of NOTCH. We show that DLL1 is co-expressed in the developing chick forebrain with Fgf8. By treating chick embryos with a pharmacological inhibitor, we demonstrate that DLL1 interacts with FGF signaling pathway. Moreover, a mutation analysis of DLL1 in HPE patients revealed a three-nucleoti…

MaleMESH: Signal TransductionCandidate gene[SDV.GEN] Life Sciences [q-bio]/GeneticsChick EmbryoMESH: Amino Acid SequenceMESH: Base SequenceHoloprosencephalyMESH: Animals[SDV.BDD]Life Sciences [q-bio]/Development BiologyGenetics (clinical)Sequence DeletionGenetics0303 health sciencesReceptors NotchMESH: Androstenediols030305 genetics & heredityMESH: Infant NewbornIntracellular Signaling Peptides and ProteinsGeneral MedicineMESH: Sequence DeletionMESH: Chick EmbryoCell biologyembryonic structuresFemale[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]MESH: Membrane ProteinsSignal transductionMESH: HoloprosencephalySignal TransductionAdultmusculoskeletal diseasesCell signalingcongenital hereditary and neonatal diseases and abnormalitiesanimal structuresMolecular Sequence DataNotch signaling pathwayMESH: Sequence AlignmentBiologyArticle03 medical and health sciencesFGF8[SDV.BDD] Life Sciences [q-bio]/Development BiologyHoloprosencephalyAndrostenediolsGeneticsmedicineAnimalsHumans[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Amino Acid SequenceMolecular Biology030304 developmental biology[SDV.GEN]Life Sciences [q-bio]/GeneticsMESH: Molecular Sequence DataMESH: HumansBase SequenceInfant NewbornMembrane ProteinsMESH: Adultmedicine.diseaseMESH: MaleForebrainMutation testingMESH: Receptors NotchSequence AlignmentMESH: Female
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Expanding the phenotype of ASXL3 ‐related syndrome: A comprehensive description of 45 unpublished individuals with inherited and de novo pathogenic v…

2021

The study aimed at widening the clinical and genetic spectrum of ASXL3-related syndrome, a neurodevelopmental disorder, caused by truncating variants in the ASXL3 gene. In this international collaborative study, we have undertaken a detailed clinical and molecular analysis of 45 previously unpublished individuals with ASXL3-related syndrome, as well as a review of all previously published individuals. We have reviewed the rather limited functional characterization of pathogenic variants in ASXL3 and discuss current understanding of the consequences of the different ASXL3 variants. In this comprehensive analysis of ASXL3-related syndrome, we define its natural history and clinical evolution …

GeneticsBiologymedicine.diseasePhenotypeHypotoniaNatural historyNeurodevelopmental disorderIntellectual disabilityGeneticsmedicineMissense mutationHypertelorismmedicine.symptomGenetics (clinical)Sequence (medicine)American Journal of Medical Genetics Part A
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De novo SMARCA2 variants clustered outside the helicase domain cause a new recognizable syndrome with intellectual disability and blepharophimosis di…

2020

International audience; Purpose: Nontruncating variants in SMARCA2, encoding a catalytic subunit of SWI/SNF chromatin remodeling complex, cause Nicolaides-Baraitser syndrome (NCBRS), a condition with intellectual disability and multiple congenital anomalies. Other disorders due to SMARCA2 are unknown.Methods: By next-generation sequencing, we identified candidate variants in SMARCA2 in 20 individuals from 18 families with a syndromic neurodevelopmental disorder not consistent with NCBRS. To stratify variant interpretation, we functionally analyzed SMARCA2 variants in yeasts and performed transcriptomic and genome methylation analyses on blood leukocytes.Results: Of 20 individuals, 14 showed…

Foot DeformitiesFoot Deformities Congenital[SDV]Life Sciences [q-bio]BiologyBlepharophimosisSettore MED/03 - GENETICA MEDICAHypotrichosisChromatin remodeling03 medical and health sciencesCongenital0302 clinical medicineNeurodevelopmental disorderIntellectual DisabilityIntellectual disabilitySMARCA2medicineHumansGeneGenetics (clinical)030304 developmental biologyGenetics0303 health sciencesBISFaciesmedicine.diseaseBlepharophimosisPhenotypeneurodevelopmental disorderPhenotypeNicolaides–Baraitser syndromeintellectual disabilityDNA methylationNicolaides–Baraitser syndrome030217 neurology & neurosurgeryTranscription FactorsGenetics in medicine : official journal of the American College of Medical Genetics
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