This study combines a clinical approach and multiple level cellular analyses to determine the physiopathological consequences of the c.1392G>T (p.Lys464Asn) CFTR exon 10 mutation, detected in a CF patient with a frameshift deletion in trans and a TG(11)T(5) in cis. Minigene experiment, with different TG(m)T(n) alleles, and nasal cell mRNA extracts were used to study the impact of c.1392G>T on splicing in both in cellulo and in vivo studies. The processing and localization of p.Lys464Asn protein were evaluated, in cellulo, by western blotting analyses and confocal microscopy. Clinical and channel exploration tests were performed on the patient to determine the exact CF phenotype profile and the CFTR chloride transport activity. c.1392G>T affects exon 10 splicing by inducing its complete deletion and encoding a frameshift transcript. The polymorphism TG(11)T(5) aggravates the effects of this mutation on aberrant splicing. Analysis of mRNA obtained from parental airway epithelial cells confirmed these in cellulo results. At the protein level the p.Lys464Asn protein showed neither maturated form nor membrane localization. Furthermore, the in vivo channel tests confirmed the absence of CFTR activity. Thus, the c.1392G>T mutation alone or in association with the TG repeats and the poly T tract revealed obvious impacts on splicing and CFTR protein processing and functionality. The c.[T(5); 1392G>T] complex allele contributes to the CF phenotype by affecting splicing and inducing a severe misprocessing defect. These results demonstrate that the classical CFTR mutations classification is not sufficient: in vivo and in cellulo studies of a possible complex allele in a patient are required to provide correct CFTR mutation classification, adequate medical counseling, and adapted therapeutic strategies.
Cystic Fibrosis is the most common recessive autosomal rare disease found in Caucasians. It is caused by mutations on the Cystic Fibrosis Transmembrane Conductance Regulator gene (CFTR) that encodes a protein located on the apical membrane of epithelial cells. c.3909C>G (p.Asn1303Lys, old nomenclature: N1303K) is one of the most common worldwide mutations. This mutation has been found at high frequencies in the Mediterranean countries with the highest frequency in the Lebanese population. Therefore, on the genetic level, we conducted a complete CFTR gene screening on c.3909C>G Lebanese patients. The complex allele c.[744-33GATT(6); 869+11C>T] was always associated with the c.3909C>G mutation in cis in the Lebanese population. In cellulo splicing studies, realized by hybrid minigene constructs, revealed no impact of the c.3909C>G mutation on the splicing process, whereas the associated complex allele induces minor exon skipping.
Cystic Fibrosis (CF) in Arab Mediterranean countries has a different CFTR mutational profile if compared either to Caucasians or in the Arabian Peninsula. The c.3909C>G (N1303K, p.Asn1303Lys) mutation of the Cystic Fibrosis Transmembrane Conductance Regulator gene (CFTR). This mutation represents a higher frequency in the Mediterranean countries in association with different polymorphisms or mutations in cis position constituting various complex alleles. N1303K mutation induces many phenotypes, especially pancreatic insufficiency from mild to severe and it is associated in cis with other polymorphisms. The aim of this investigation is therefore to screen complex alleles carrying N1303K mutation among Lebanese, Egyptian and French patients. All exons of the CFTR and their flanking regions were performed by PCR amplification, followed by automated direct DNA sequencing. Two complex alleles are more frequent corresponding to Wild Type and mutated haplotype. Besides that two other very rare complex alleles have been detected, one in Egyptian and French samples, and then another one in Lebanon samples. We have studied their impact on the CFTR mRNA splicing using a minigene strategy. Constructs containing wild-type and mutant CFTR cloned into the pTBNdeI hybride minigene have been expressed in HeLa, HT29 and HEK293 cells. RT-PCR analysis of mRNA using β-globin-specific primers revealed that N1303K and the polymorphisms associated with cis induce weak abnormal splicing and a modification of the quality and the quantity of CFTR protein. These different associations of identified polymorphisms with N1303K in cis could have an impact on the severity of the disease.
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