0000000000300102

AUTHOR

Nicolas Lévy

showing 5 related works from this author

Metformin decreases progerin expression and alleviates pathological defects of Hutchinson–Gilford progeria syndrome cells

2016

Hutchinson–Gilford progeria syndrome (HGPS) is a rare genetic disorder that causes systemic accelerated aging in children. This syndrome is due to a mutation in the LMNA gene that leads to the production of a truncated and toxic form of lamin A called progerin. Because the balance between the A-type lamins is controlled by the RNA-binding protein SRSF1, we have hypothesized that its inhibition may have therapeutic effects for HGPS. For this purpose, we evaluated the antidiabetic drug metformin and demonstrated that 48 h treatment with 5 mmol/l metformin decreases SRSF1 and progerin expression in mesenchymal stem cells derived from HGPS induced pluripotent stem cells (HGPS MSCs). The effect …

0301 basic medicinePremature agingcongenital hereditary and neonatal diseases and abnormalitiesAgingArticleLMNA03 medical and health sciencesProgeria0302 clinical medicinemedicineInduced pluripotent stem cellProgeriaintegumentary systembusiness.industryGenetic disordernutritional and metabolic diseasesmedicine.diseaseProgerinMetformin030104 developmental biology030220 oncology & carcinogenesisCancer researchGeriatrics and GerontologybusinessLaminmedicine.drugnpj Aging and Mechanisms of Disease
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Pathological modelling of pigmentation disorders associated with Hutchinson-Gilford Progeria Syndrome (HGPS) revealed an impaired melanogenesis pathw…

2018

AbstractHutchinson-Gilford Progeria Syndrome (HGPS) is a rare genetic disorder that leads to premature aging. In this study, we used induced pluripotent stem cells to investigate the hypopigmentation phenotypes observed in patients with progeria. Accordingly, two iPS cell lines were derived from cells from HGPS patients and differentiated into melanocytes. Measurements of melanin content revealed a lower synthesis of melanin in HGPS melanocytes as compared to non-pathologic cells. Analysis of the melanosome maturation process by electron microscopy revealed a lower percentage of mature, fully pigmented melanosomes. Finally, a functional rescue experiment revealed the direct role of progerin…

0301 basic medicinePremature agingcongenital hereditary and neonatal diseases and abnormalitiesInduced Pluripotent Stem Cellslcsh:MedicineBiologyModels BiologicalArticleMelanin03 medical and health sciencesProgeriamedicineHumansInduced pluripotent stem celllcsh:SciencePigmentation disorderMelanosomeHypopigmentationProgeriaMelanosomesMultidisciplinaryintegumentary systemlcsh:Rnutritional and metabolic diseasesmedicine.diseaseProgerinCell biology030104 developmental biology[SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human geneticsMelanocyteslcsh:Qmedicine.symptomPigmentation Disorders
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Loss-of-Function Mutations in UNC45A Cause a Syndrome Associating Cholestasis, Diarrhea, Impaired Hearing, and Bone Fragility

2018

International audience; Despite the rapid discovery of genes for rare genetic disorders, we continue to encounter individuals presenting with syndromic manifestations. Here, we have studied four affected people in three families presenting with cholestasis, congenital diarrhea, impaired hearing, and bone fragility. Whole-exome sequencing of all affected individuals and their parents identified biallelic mutations in Unc-45 Myosin Chaperone A (UNC45A) as a likely driver for this disorder. Subsequent in vitro and in vivo functional studies of the candidate gene indicated a loss-of-function paradigm, wherein mutations attenuated or abolished protein activity with concomitant defects in gut dev…

0301 basic medicineDiarrheaMaleCandidate geneAdolescentBone fragilityArticleBone and Bones03 medical and health sciencesYoung AdultCholestasisLoss of Function MutationGCUNC-45MyosinGeneticsMedicineAnimalsHumansFamilyLymphocytes[ SDV.GEN.GH ] Life Sciences [q-bio]/Genetics/Human geneticsHearing LossGeneGenetics (clinical)Loss functionZebrafishCholestasisbusiness.industryInfant NewbornIntracellular Signaling Peptides and ProteinsSyndromeFibroblastsmedicine.disease3. Good healthPedigreeDiarrhea030104 developmental biologyPhenotype[SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human geneticsConcomitantChild PreschoolImmunologyFemalemedicine.symptombusinessGastrointestinal Motility
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A High Throughput Phenotypic Screening reveals compounds that counteract premature osteogenic differentiation of HGPS iPS-derived mesenchymal stem ce…

2016

AbstractHutchinson-Gilford progeria syndrome (HGPS) is a rare fatal genetic disorder that causes systemic accelerated aging in children. Thanks to the pluripotency and self-renewal properties of induced pluripotent stem cells (iPSC), HGPS iPSC-based modeling opens up the possibility of access to different relevant cell types for pharmacological approaches. In this study, 2800 small molecules were explored using high-throughput screening, looking for compounds that could potentially reduce the alkaline phosphatase activity of HGPS mesenchymal stem cells (MSCs) committed into osteogenic differentiation. Results revealed seven compounds that normalized the osteogenic differentiation process an…

0301 basic medicineCell typecongenital hereditary and neonatal diseases and abnormalitiesPhenotypic screeningInduced Pluripotent Stem CellsRetinoic acidTretinoinBiologyArticle03 medical and health scienceschemistry.chemical_compoundProgeriaOsteogenesis[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]medicineHumansInduced pluripotent stem cellChildIsotretinoinGeneticsProgeriaMultidisciplinaryintegumentary systemGuided Tissue RegenerationMesenchymal stem cellnutritional and metabolic diseasesAging PrematureCell DifferentiationMesenchymal Stem Cellsmedicine.diseaseProgerinAlkaline PhosphataseLamin Type A3. Good healthCell biologyHigh-Throughput Screening Assays030104 developmental biologychemistryGene Expression Regulation[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Alkaline phosphataseScientific Reports
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Osteo-Oto-Hepato-Enteric Syndrome (O2HE) is caused by loss of function mutations in UNC45A

2017

AbstractDespite the rapid discovery of genes for rare genetic disorders, we continue to encounter individuals presenting with hitherto unknown syndromic manifestations. Here, we have studied four affected people in three families presenting with cholestasis, congenital diarrhea, impaired hearing and bone fragility, a clinical entity we have termed O2HE (Osteo-Oto-Hepato-enteric) syndrome. Whole exome sequencing of all affected individuals and their parents identified biallelic mutations in Unc-45 Myosin Chaperone A (UNC45A), as a likely driver for this disorder. Subsequent in vitro and in vivo functional studies of the candidate gene indicated a loss of function paradigm, wherein mutations …

Candidate geneCholestasisIn vivoConcomitantMyosinImmunologymedicineCancer researchBiologymedicine.diseaseGeneLoss functionExome sequencing
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