A novel autism-associated UBLCP1 mutation impacts proteasome regulation/activity

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dc.contributor.authorSoueid, Jihane
dc.contributor.authorHamze, Zeinab
dc.contributor.authorBedran, Joe
dc.contributor.authorChahrour, Maria H.
dc.contributor.authorBoustany, Rose Mary Naaman
dc.contributor.departmentBiochemistry and Molecular Genetics
dc.contributor.departmentPediatrics and Adolescent Medicine
dc.contributor.facultyFaculty of Medicine (FM)
dc.contributor.institutionAmerican University of Beirut
dc.date.accessioned2025-01-24T11:38:34Z
dc.date.available2025-01-24T11:38:34Z
dc.date.issued2023
dc.description.abstractThe landscape of autism spectrum disorder (ASD) in Lebanon is unique because of high rates of consanguinity, shared ancestry, and increased remote consanguinity. ASD prevalence in Lebanon is 1 in 68 with a male-to-female ratio of 2:1. This study aims to investigate the impact of an inherited deletion in UBLCP1 (Ubiquitin-Like Domain-Containing CTD Phosphatase 1) on the ubiquitin-proteasome system (UPS) and proteolysis. Whole exome sequencing in a Lebanese family with ASD without pathogenic copy number variations (CNVs) uncovered a deletion in UBLCP1. Functional evaluation of the identified variant is described in fibroblasts from the affected. The deletion in UBLCP1 exon 10 (g.158,710,261CAAAG > C) generates a premature stop codon interrupting the phosphatase domain and is predicted as pathogenic. It is absent from databases of normal variation worldwide and in Lebanon. Wild-type UBLCP1 is widely expressed in mouse brains. The mutation results in decreased UBLCP1 protein expression in patient-derived fibroblasts from the autistic patient compared to controls. The truncated UBLCP1 protein results in increased proteasome activity decreased ubiquitinated protein levels, and downregulation in expression of other proteasome subunits in samples from the affected compared to controls. Inhibition of the proteasome by using MG132 in proband cells reverses alterations in gene expression due to the restoration of protein levels of the common transcription factor, NRF1. Finally, treatment with gentamicin, which promotes premature termination codon read-through, restores UBLCP1 expression and function. Discovery of an ASD-linked mutation in UBLCP1 leading to overactivation of cell proteolysis is reported. This, in turn, leads to dysregulation of proteasome subunit transcript levels as a compensatory response. © 2023, The Author(s).
dc.identifier.doihttps://doi.org/10.1038/s41398-023-02702-0
dc.identifier.eid2-s2.0-85180199441
dc.identifier.pmid38129378
dc.identifier.urihttp://hdl.handle.net/10938/29082
dc.language.isoen
dc.publisherSpringer Nature
dc.relation.ispartofTranslational Psychiatry
dc.sourceScopus
dc.subjectAnimals
dc.subjectAutism spectrum disorder
dc.subjectAutistic disorder
dc.subjectDna copy number variations
dc.subjectFemale
dc.subjectHumans
dc.subjectMale
dc.subjectMice
dc.subjectMutation
dc.subjectProteasome endopeptidase complex
dc.subjectUbiquitins
dc.subject4 aminobutyric acid a receptor beta2
dc.subjectBenzyloxycarbonylleucylleucylleucinal
dc.subjectCalbindin
dc.subjectCd11b antigen
dc.subjectGentamicin
dc.subjectGlial fibrillary acidic protein
dc.subjectHistone deacetylase 9
dc.subjectMicrotubule associated protein 2
dc.subjectNeuron specific nuclear protein
dc.subjectOligodendrocyte transcription factor 2
dc.subjectPeptides and proteins
dc.subjectProteasome
dc.subjectProtein tas1r2
dc.subjectTranscription factor nrf1
dc.subjectTyrosine 3 monooxygenase
dc.subjectUbiquitin like domain containing c terminal domain phosphatase 1
dc.subjectUbiquitinated protein
dc.subjectUnclassified drug
dc.subjectUbiquitin
dc.subjectAdult
dc.subjectAnimal experiment
dc.subjectAnimal model
dc.subjectAntibody labeling
dc.subjectArticle
dc.subjectAstrocyte
dc.subjectAutism
dc.subjectBlood sampling
dc.subjectBradford assay
dc.subjectBrain cortex
dc.subjectC57bl 6 mouse
dc.subjectCell culture
dc.subjectCellular distribution
dc.subjectCerebellum
dc.subjectClinical article
dc.subjectCohort analysis
dc.subjectControlled study
dc.subjectDiencephalon
dc.subjectDifferential gene expression
dc.subjectDna extraction
dc.subjectDopaminergic nerve cell
dc.subjectDown regulation
dc.subjectDsm-5
dc.subjectEnzyme activity
dc.subjectEnzyme inhibition
dc.subjectEnzyme regulation
dc.subjectExon
dc.subjectFibroblast
dc.subjectFrameshift mutation
dc.subjectGene deletion
dc.subjectGene expression
dc.subjectGene frequency
dc.subjectGene mutation
dc.subjectGlia cell
dc.subjectHippocampus
dc.subjectHuman
dc.subjectHuman cell
dc.subjectHuman tissue
dc.subjectImmunofluorescence assay
dc.subjectImmunohistochemistry
dc.subjectIn situ hybridization
dc.subjectIndel mutation
dc.subjectInheritance
dc.subjectMicroglia
dc.subjectMouse
dc.subjectNerve cell
dc.subjectNonhuman
dc.subjectOligodendroglia
dc.subjectProtein degradation
dc.subjectProtein expression
dc.subjectProtein function
dc.subjectPurkinje cell
dc.subjectReal time polymerase chain reaction
dc.subjectRhombencephalon
dc.subjectRna extraction
dc.subjectSanger sequencing
dc.subjectSingle nucleotide polymorphism
dc.subjectSkin biopsy
dc.subjectStop codon
dc.subjectVentral tegmentum
dc.subjectWestern blotting
dc.subjectWhole exome sequencing
dc.subjectYoung adult
dc.subjectAnimal
dc.subjectCopy number variation
dc.subjectGenetics
dc.subjectMetabolism
dc.titleA novel autism-associated UBLCP1 mutation impacts proteasome regulation/activity
dc.typeArticle

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