Search results for "PTC124"

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…

Identification and validation of novel molecules obtained by integrated computational and experimental approaches for the read-through of PTCs in CF …

2015

PTC124 derivatives as a novel approach to improve the readthrough of premature stop codons in the CFTR gene.

2011

Background Cystic fibrosis (CF) is caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR). Approximately 10% (worldwide) of patients have in-frame nonsense mutations (UAA, UAG or UGA class I mutations) in the CF trans-membrane regulator (CFTR) gene that result in premature stop codons (PTCs) in the messenger RNA (mRNA) generating truncated CFTR protein responsible for a severe CF phenotype. Pharmacological approaches have been proposed to directly overcome PTCs. Ataluren (PTC124) a small molecule that mimics the activity of aminoglycosides has been suggested to allow PTCs readthrough and to partially restore the protein function. However, des…

AZIONE READTHROUGH DI DERIVATI DEL PTC124 SU SISTEMI MODELLO CELLULARI E IN CELLULE DI EPITELIO BRONCHIALE-FC IB3.1 (CFTR F508/W1282X )

2013

Obiettivi specifici: Le mutazioni nonsenso (mutazioni STOP), un difetto genetico frequente negli individui affetti da Fibrosi Cistica (CF), causano la sintesi di proteine CFTR tronche e non funzionanti che sono associate ad un fenotipo più severo della CF (McKone EF. et al., Chest 2006). L’obiettivo del nostro studio è stato quello di disegnare derivati dell’Ataluren (PTC124), una ‘small molecule’ a cui è stata attribuita attività readthrough, e valutarne l’attività su tre differenti sistemi modello sperimentali contenenti codoni di STOP prematuri (UGA, UAG, UAA). Materiali e metodi: Sono state sintetizzate 24 molecole derivate dal PTC124 e analizzate mediante tecniche spettroscopiche per v…

Valutazione dell'azione readthorough della molecola PTC124 su sistemi modello cellulari contenenti mutazioni non senso e in cellule epiteliali bronch…

2013

Circa il 10% dei pazienti affetti da fibrosi cistica (FC) presenta nel gene CFTR mutazioni non senso (o 'stop': UGA, UAG or UAA, mutazioni di classe I) che bloccano prematuramente la sintesi della proteina. Attualmente non esiste una cura per questo tipo di mutazioni ma si sta cercando di individuare delle molecole che siano in grado di indurre la traduzione di codoni di stop prematuri (readthrough) che, rispetto a molecole già note come il G418, abbiano effetti collaterali ridotti ed una maggiore specificità per uno specifico codone. Una piccola molecola che sembra possedere una tale attività è il PTC124 (Welch, 2007). Ad oggi però non c’è ancora un consenso generale sul meccanismo di azio…

X CONVENTION OF INVESTIGATORS IN CYSTIC FIBROSIS.

2012

Background Cystic fibrosis (CF) is caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR). Approximately 10% (worldwide) of patients have in-frame nonsense mutations (UAA, UAG or UGA class I mutations) in the CF trans-membrane regulator (CFTR) gene that result in premature stop codons (PTCs) in the messenger RNA (mRNA) generating truncated CFTR protein responsible for a severe CF phenotype. Pharmacological approaches have been proposed to directly overcome PTCs. Ataluren (PTC124) a small molecule that mimics the activity of aminoglycosides has been suggested to allow PTCs readthrough and to partially restore the protein function. However, des…

PTC124 DERIVATIVES AS A NOVEL APPROACH TO IMPROVE THE READTHROUGH OF PREMATURE AMBER AND OCHRE STOP CODONS

2013

Nucleotide changes within an exon may alter the trinucleotide normally encoding a particular amino acid, such that a new “stop” signal is transcribed into the mRNA open reading frame. This causes the ribosome to prematurely terminate its reading of the mRNA, leading to the lack of production of a normal full-length protein. Such premature termination codon (PTC) mutations occur in an estimated 10% to 15% of many genetically based disorders (1). Pathological nonsense mutations resulting in TAG (40.4%), TGA (38.5%), and TAA (21.1%) occur in different proportions to naturally occurring stop codons (2). Several genetic disorders are characterized by opal (TGA; Cystic fibrosis, Duchenne/Becker m…