Abstract
Cystic fibrosis (CF) is a lethal genetic disorder that is due to mutations in the gene encoding the cAMP-activated anion CF transmembrane conductance regulator (CFTR) channel. A three-nucleotide base deletion (TTT), encoding phenylalanine in position 508 of the translatable CFTR sequence (accompanied by a C to T replacement immediately 5' to the deletion), accounts for approximately 75% of cases of the disease. In the present study, an oligonucleotide complex (CF4-CF6, 2'-0-methyl RNA-unmodified RNA oligonucleotide duplex, respectively) was used to restore CFTR function by insertion of missing bases in Delta508 CFTR mRNA from a cultured (Delta508) cell line. cAMP-activated whole-cell currents and Cl- transport were detected in CF4-CF6-treated, but not control Delta508, cells by patch-clamp and 6-methoxy-N-(3-sulfopropyl)quinolinium fluorescence (SPQ) quenching analyses, respectively. Further, the nucleotide addition in the deleted region of Delta508 CFTR was determined after amplification by RT-PCR. Insertion of UGU and replacement of U by C immediately 5' to the deletion site in Delta508 mRNA appear to have taken place, with phenotypic but not genotypic reversion in tissue culture of treated cells. The mechanism of insertion of nucleotides has yet to be determined.
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