Search results for "Ataluren"

showing 10 items of 15 documents

Translational readthrough of ciliopathy genes BBS2 and ALMS1 restores protein, ciliogenesis and function in patient fibroblasts

2021

Abstract Background Ciliary dysfunction underlies a range of genetic disorders collectively termed ciliopathies, for which there are no treatments available. Bardet-Biedl syndrome (BBS) is characterised by multisystemic involvement, including rod-cone dystrophy and renal abnormalities. Together with Alstrom syndrome (AS), they are known as the ‘obesity ciliopathies’ due to their common phenotype. Nonsense mutations are responsible for approximately 11% and 40% of BBS and AS cases, respectively. Translational readthrough inducing drugs (TRIDs) can restore full-length protein bypassing in-frame premature termination codons, and are a potential therapeutic approach for nonsense-mediated ciliop…

BBS2AdultMaleMedicine (General)AdolescentNonsense mutationAminopyridinesCell Cycle ProteinsCiliopathiesGeneral Biochemistry Genetics and Molecular Biologychemistry.chemical_compoundR5-920AtalurenCiliogenesismedicineHumansReceptors SomatostatinBardet-Biedl SyndromeAlstrom SyndromeCells CulturedOxadiazolesbusiness.industryTumor Suppressor ProteinsTranslational readthroughRProteinsGeneral MedicineFibroblastsmedicine.diseaseNonsense suppressionCiliopathiesAtalurenCiliopathyALMS1chemistryCodon NonsenseAmlexanoxCancer researchMedicineBBS2businessAlström syndromeResearch PaperEBioMedicine
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Identification and validation of novel molecules obtained by integrated computational and experimental approaches for the read-through of PTCs in CF …

2015

ChemistrySettore BIO/11 - Biologia MolecolareComputational biologyCystic Fibrosis Ataluren premature termination codon (PTC)Settore CHIM/06 - Chimica OrganicaBioinformaticsRead throughCystic fibrosis; Premature Termination codons (PTC); oxadiazoles; Ataluren (PTC124)Settore BIO/18 - GeneticaAtaluren (PTC124)Premature Termination codons (PTC)Cystic fibrosiIdentification (biology)oxadiazole
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Deciphering the Nonsense Readthrough Mechanism of Action of Ataluren: An in Silico Compared Study

2019

Ataluren was reported to suppress nonsense mutations by promoting the readthrough of premature stop codons, although its mechanism of action (MOA) is still debated. The likely interaction of Ataluren with CFTR-mRNA has been previously studied by molecular dynamics. In this work we extended the modeling of Ataluren's MOA by complementary computational approaches such as induced fit docking (IFD), quantum polarized ligand docking (QPLD), MM-GBSA free-energy calculations, and computational mutagenesis. In addition to CFTR-mRNA, this study considered other model targets implicated in the translation process, such as eukaryotic rRNA 18S, prokaryotic rRNA 16S, and eukaryotic Release Factor 1 (eRF…

In silicoNonsense mutationComputational biology01 natural sciencesRibosomeBiochemistrychemistry.chemical_compoundDrug DiscoveryQPLDcomputational mutagenesiMM-GBSA010405 organic chemistryChemistryDrug Discovery3003 Pharmaceutical ScienceOrganic Chemistrypremature termination codonSettore CHIM/06 - Chimica OrganicaSettore CHIM/08 - Chimica FarmaceuticaStop codon0104 chemical sciencesAtalurenInduced fit docking010404 medicinal & biomolecular chemistrySettore BIO/18 - GeneticaDocking (molecular)ProofreadingRelease factoroxadiazole
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Caffeine boosts Ataluren's readthrough activity

2019

Abstract The readthrough of nonsense mutations by small molecules like Ataluren is considered a novel therapeutic approach to overcome the gene defect in several genetic diseases as cystic fibrosis (CF). This pharmacological approach suppresses translation termination at premature termination codons (PTCs readthrough) thus restoring the expression of a functional protein. However, readthrough might be limited by the nonsense-mediated mRNA decay (NMD), a cell process that reduces the amount/level of PTCs containing mRNAs. Here we investigate the combined action of Ataluren and caffeine to enhance the readthrough of PTCs. IB3.1 CF cells with a nonsense mutation were treated with caffeine to a…

0301 basic medicineMolecular biologymedia_common.quotation_subjectCellNonsenseNonsense mutationMRNA DecaySettore BIO/11 - Biologia MolecolareBiochemistryCystic fibrosisArticleCystic fibrosisCFTR gene03 medical and health scienceschemistry.chemical_compound0302 clinical medicineCaffeinemedicinelcsh:Social sciences (General)Settore BIO/06 - Anatomia Comparata E Citologialcsh:Science (General)media_commonMessenger RNAMultidisciplinaryNonsense mutationNonsense mutationsPTC readthroughAtaluren/PTC124Settore CHIM/06 - Chimica Organicamedicine.diseaseCell biologyAtalurenSettore BIO/18 - Genetica030104 developmental biologymedicine.anatomical_structurechemistryCystic fibrosilcsh:H1-99Caffeine030217 neurology & neurosurgerylcsh:Q1-390Heliyon
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Enhancement of premature stop codon readthrough in the CFTR gene by Ataluren (PTC124) derivatives.

2015

Abstract Premature stop codons are the result of nonsense mutations occurring within the coding sequence of a gene. These mutations lead to the synthesis of a truncated protein and are responsible for several genetic diseases. A potential pharmacological approach to treat these diseases is to promote the translational readthrough of premature stop codons by small molecules aiming to restore the full-length protein. The compound PTC124 (Ataluren) was reported to promote the readthrough of the premature UGA stop codon, although its activity was questioned. The potential interaction of PTC124 with mutated mRNA was recently suggested by molecular dynamics (MD) studies highlighting the importanc…

Cystic FibrosisNonsense mutationPeptide Chain Elongation TranslationalCystic Fibrosis Transmembrane Conductance RegulatorSettore BIO/11 - Biologia MolecolareMolecular Dynamics SimulationCFTR genechemistry.chemical_compoundStructure-Activity RelationshipPlasmidDrug DiscoveryTumor Cells CulturedCoding regionHumansGreen fluorescent proteinGenePharmacologyGeneticsMessenger RNAOxadiazolesNonsense mutationDose-Response Relationship DrugMolecular StructureDrug Discovery3003 Pharmaceutical ScienceOrganic ChemistryTranslational readthroughSettore CHIM/06 - Chimica OrganicaGeneral MedicinePTCs readthroughStop codonAtalurenSettore BIO/18 - GeneticachemistrySettore CHIM/03 - Chimica Generale E InorganicaCodon NonsenseCystic fibrosiMutationFluorinated oxadiazoleHeLa CellsEuropean journal of medicinal chemistry
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Novel Translational Read-through–Inducing Drugs as a Therapeutic Option for Shwachman-Diamond Syndrome

2022

Shwachman-Diamond syndrome (SDS) is one of the most commonly inherited bone marrow failure syndromes (IBMFS). In SDS, bone marrow is hypocellular, with marked neutropenia. Moreover, SDS patients have a high risk of developing myelodysplastic syndrome (MDS), which in turn increases the risk of acute myeloid leukemia (AML) from an early age. Most SDS patients are heterozygous for the c.183-184TA>CT (K62X) SBDS nonsense mutation. Fortunately, a plethora of translational read-through inducing drugs (TRIDs) have been developed and tested for several rare inherited diseases due to nonsense mutations so far. The authors previously demonstrated that ataluren (PTC124) can restore full-length SBDS…

neutropeniaMedicine (miscellaneous)atalurenbone marrow failure syndromes; ataluren; neutropeniabone marrow failure syndromesShwachman-Diamond SyndromeGeneral Biochemistry Genetics and Molecular BiologyBiomedicines
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Translational read-through of the RP2 Arg120stop mutation in patient iPSC-derived retinal pigment epithelium cells.

2014

Mutations in the RP2 gene lead to a severe form of X-linked retinitis pigmentosa. RP2 patients frequently present with nonsense mutations and no treatments are currently available to restore RP2 function. In this study, we reprogrammed fibroblasts from an RP2 patient carrying the nonsense mutation c.519C>T (p.R120X) into induced pluripotent stem cells (iPSC), and differentiated these cells into retinal pigment epithelial cells (RPE) to study the mechanisms of disease and test potential therapies. RP2 protein was undetectable in the RP2 R120X patient cells, suggesting a disease mechanism caused by complete lack of RP2 protein. The RP2 patient fibroblasts and iPSC-derived RPE cells showed phe…

MaleNonsense mutationInduced Pluripotent Stem CellsGene ExpressionRetinal Pigment EpitheliumBiologymedicine.disease_causeBioinformaticschemistry.chemical_compoundYoung AdultGTP-Binding ProteinsRetinitis pigmentosaGeneticsmedicineHumansCiliaFibroblastInduced pluripotent stem cellEye ProteinsMolecular BiologyGenetics (clinical)MutationOxadiazolesRetinal pigment epitheliumIntracellular Signaling Peptides and ProteinsMembrane ProteinsRetinalCell DifferentiationEpithelial CellsGeneral MedicineArticlesFibroblastsmedicine.diseaseCellular Reprogramming3. Good healthAtalurenCell biologyProtein Transportmedicine.anatomical_structurePhenotypechemistryProtein BiosynthesisMutationHuman molecular genetics
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Strategies against nonsense: oxadiazoles as translational readthrough-inducing drugs (TRIDs)

2019

This review focuses on the use of oxadiazoles as translational readthrough-inducing drugs (TRIDs) to rescue the functional full-length protein expression in mendelian genetic diseases caused by nonsense mutations. These mutations in specific genes generate premature termination codons (PTCs) responsible for the translation of truncated proteins. After a brief introduction on nonsense mutations and their pathological effects, the features of various classes of TRIDs will be described discussing differences or similarities in their mechanisms of action. Strategies to correct the PTCs will be presented, particularly focusing on a new class of Ataluren-like oxadiazole derivatives in comparison …

0301 basic medicinemedia_common.quotation_subjectNonsenseNonsense mutationRegulatorSettore BIO/11 - Biologia MolecolareReviewComputational biologyBiologyOxadiazoleCatalysiscystic fibrosislcsh:ChemistryInorganic Chemistry03 medical and health sciences0302 clinical medicineAtalurenTranslational readthrough inducing drugsPhysical and Theoretical Chemistrylcsh:QH301-705.5Molecular BiologyGeneSpectroscopymedia_commonNonsense mutationOrganic ChemistryTranslational readthroughoxadiazolesPremature termination codonTranslation (biology)General MedicineSettore CHIM/06 - Chimica OrganicaSmall moleculeSettore CHIM/08 - Chimica FarmaceuticaTransmembrane proteinComputer Science ApplicationsSettore BIO/18 - Genetica030104 developmental biologyPharmaceutical Preparationslcsh:Biology (General)lcsh:QD1-999Codon NonsenseProtein Biosynthesis030220 oncology & carcinogenesisCystic fibrosi
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PTC124-mediated translational readthrough of a nonsense mutation causing Usher syndrome type 1C.

2011

We investigated the therapeutic potential of the premature termination codon (PTC) readthrough-inducing drug PTC124 in treating the retinal phenotype of Usher syndrome, caused by a nonsense mutation in the USH1C gene. Applications in cell culture, organotypic retina cultures, and mice in vivo revealed significant readthrough and the recovery of protein function. In comparison with other readthrough drugs, namely the clinically approved readthrough-inducing aminoglycoside gentamicin, PTC124 exhibits significant better retinal biocompatibility. Its high readthrough efficiency in combination with excellent biocompatibility makes PTC124 a promising therapeutic agent for PTCs in USH1C, as well a…

virusesUsher syndromeGenetic enhancementNonsense mutationGenetic VectorsCell Cycle ProteinsRetina03 medical and health scienceschemistry.chemical_compoundMice0302 clinical medicineIn vivootorhinolaryngologic diseasesGeneticsmedicineAnimalsHumansMolecular BiologyCells Cultured030304 developmental biologyAdaptor Proteins Signal TransducingGenetics0303 health sciencesOxadiazolesbusiness.industryfungiAminoglycosideTranslational readthroughmedicine.diseasePhenotype3. Good healthAtalurenMice Inbred C57BLCytoskeletal ProteinsLuminescent ProteinsElectroporationchemistryMicroscopy FluorescenceCodon NonsenseCancer researchMolecular MedicineGentamicinsbusinessUsher Syndromes030217 neurology & neurosurgeryHuman gene therapy
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Uno studio comparativo in silico sui possibili target di Ataluren e analoghi farmaci promotori di readthrough di codoni di stop prematuri

2019

E’ noto in letteratura che Ataluren (acido 5-(fluorofenil)-1,2,4-ossadiazolil-benzoico) sia in grado di sopprimere le mutazioni non senso favorendo il readthrough dei codoni di stop prematuri, anche se il suo meccanismo di azione non risulta ancora chiaro. La probabile interazione tra Ataluren e CTFR-mRNA è stata precedentemente studiata mediante dinamica molecolare. In questo studio1, abbiamo esteso il modeling del probabile meccanismo di azione di Ataluren mediante approcci computazionali completementari, quali Induced Fit Docking (IFD), Quantum Polarized Ligand Docking (QPLD), metodi MM-GBSA e mutagenesi computazionale. Oltre a considerare il CTFR-mRNA, sono stati presi in considerazione…

in silico readthrough CFTR Fibrosi cistica Ataluren
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