Celeste Barreto

Cystic fibrosis patients with the 3272‐26A→G mutation have mild disease, leaky alternative mRNA splicing, and CFTR protein at the cell membrane

We characterized the 3272‐26A→G mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) gene, creating an alternative acceptor splice site in intron 17a, that competes with the normal one, although we predict from consensus values, with lower efficiency. We analyzed five Cystic Fibrosis (CF) Portuguese patients with the 3272‐26A→G/F508del genotype. Besides clinical and haplotype characterization of those patients, we report here results from CFTR transcript analysis in nasal brushings from all five patients. RT‐PCR analysis supports alternative splicing in all patients and carriers, but not in controls. By sequencing, we determined that the alternative transcript includes 25 nucleotides from intron 17a, which predictively cause frameshift and a premature stop codon. The use of this alternative splice site causes a reduction in the levels of normal transcripts from the allele with this mutation and, most probably, of normal protein as well. By immunocytochemistry of both epithelial primary cell cultures and slices from CF polyps, CFTR protein is detected at the cell membrane, with three different antibodies. Ussing chamber analysis of one nasal polyp shows a high sodium absorption, characteristic of CF. Altogether, the results suggest that the main defect caused by the 3272‐26A→G mutation is a reduction in normal CFTR transcripts and protein and therefore this mutation should be included in class V, according to Zielenski and Tsui. Hum Mutat 14:133–144, 1999.

Cystic fibrosis patients with the 3272-26A>G splicing mutation have milder disease than F508del homozygotes: a large European study

Editor—Cystic fibrosis (CF, MIM 219700) is a common, severe, autosomal recessive disease caused by mutations in the CF transmembrane conductance regulator ( CFTR ) gene cloned in 1989.1-3The disease, characterised by chronic lung disease which is the main cause of morbidity and mortality, pancreatic dysfunction, raised electrolyte levels in sweat, and male infertility, is caused by altered chloride (Cl−) secretion across the apical membrane of epithelial cells.4 There is, however, substantial variability in the clinical manifestations affecting the various organs.4 5 One single mutation, F508del, generally associated with severe disease, accounts for about 70% of CF chromosomes world wide, although with a heterogeneous geographical distribution.5 Patients homozygous for the F508del mutation have the classical severe form of the disease which includes chronic mucous obstruction of the lung and conducting airways, followed by recurrent infections mostly by Pseudomonas aeruginosa (Pa) and Staphylococcus aureus (Sa), exocrine pancreatic insufficiency (PI), resulting in failure to gain weight and height, and raised levels of Cl−, sodium, and potassium in exocrine sweat.5 However, almost 1000 genetic alterations have been detected in the CFTR gene ( CFTR Mutation Database), most presumed to be disease causing mutations. About half of these are amino acid substitutions (missense mutations) and about 20% are splicing mutations. The remainder are nonsense, frameshift (including small deletions and insertions), and a small proportion of promoter mutations. The relationship between genotype, that is, the mutations in the CFTR gene, and the clinical phenotype of CF patients has been difficult to establish, in particular for lung disease. It was previously shown that the 3272-26A>G mutation leads to the creation of an alternative acceptor splice site competing with the normal one during RNA processing and resulting in the occurrence of an alternatively spliced mRNA with 25 extra nucleotides from …

Changes in transcriptome of native nasal epithelium expressing F508del-CFTR and intersecting data from comparable studies

BackgroundMicroarray studies related to cystic fibrosis (CF) airway gene expression have gone some way in clarifying the complex molecular background of CF lung diseases, but have made little progress in defining a robust “molecular signature” associated with mutant CFTR expression. Disparate methodological and statistical analyses complicate comparisons between independent studies of the CF transcriptome, and although each study may be valid in isolation, the conclusions reached differ widely.MethodsWe carried out a small-scale whole genome microarray study of gene expression in human native nasal epithelial cells from F508del-CFTR homozygotes in comparison to non-CF controls. We performed superficial comparisons with other microarray datasets in an attempt to identify a subset of regulated genes that could act as a signature of F508del-CFTR expression in native airway tissue samples.ResultsAmong the alterations detected in CF, up-regulation of genes involved in cell proliferation, and down-regulation of cilia genes were the most notable. Other changes involved gene expression changes in calcium and membrane pathways, inflammation, defence response, wound healing and the involvement of estrogen signalling. Comparison of our data set with previously published studies allowed us to assess the consistency of independent microarray data sets, and shed light on the limitations of such snapshot studies in measuring a system as subtle and dynamic as the transcriptome. Comparison of in-vivo studies nevertheless yielded a small molecular CF signature worthy of future investigation.ConclusionsDespite the variability among the independent studies, the current CF transcriptome meta-analysis identified subsets of differentially expressed genes in native airway tissues which provide both interesting clues to CF pathogenesis and a possible CF biomarker.

HGF stimulation of Rac1 signaling enhances pharmacological correction of the most prevalent cystic fibrosis mutant F508del-CFTR.

Cystic fibrosis (CF), a major life-limiting genetic disease leading to severe respiratory symptoms, is caused by mutations in CF transmembrane conductance regulator (CFTR), a chloride (Cl(-)) channel expressed at the apical membrane of epithelial cells. Absence of functional CFTR from the surface of respiratory cells reduces mucociliary clearance, promoting airways obstruction, chronic infection, and ultimately lung failure. The most frequent mutation, F508del, causes the channel to misfold, triggering its premature degradation and preventing it from reaching the cell surface. Recently, novel small-molecule correctors rescuing plasma membrane localization of F508del-CFTR underwent clinical trials but with limited success. Plausibly, this may be due to the mutant intrinsic plasma membrane (PM) instability. Herein, we show that restoration of F508del-CFTR PM localization by correctors can be dramatically improved through a novel pathway involving stimulation of signaling by the endogenous small GTPase Rac1 via hepatocyte growth factor (HGF). We first show that CFTR anchors to apical actin cytoskeleton (via Ezrin) upon activation of Rac1 signaling through PIP5K and Arp2/3. We then found that such anchoring retains pharmacologically rescued F508del-CFTR at the cell surface, boosting functional restoration by correctors up to 30% of wild-type channel levels in human airway epithelial cells. Our findings reveal that surface anchoring and retention is a major target pathway for CF pharmacotherapy, namely, to achieve maximal restoration of F508del-CFTR in patients in combination with correctors. Moreover, this approach may also translate to other disorders caused by trafficking-deficient surface proteins.

Complex cystic fibrosis allele R334W-R1158X results in reduced levels of correctly processed mRNA in a pancreatic sufficient patient

CFTR alleles containing two mutations have been very rarely found in cystic fibrosis (CF) patients. They provide an opportunity to study the effect of two in cis‐interacting gene defects on gene expression. Here, we describe a three‐generation CF family with a complex CFTR allele that has not been previously described, containing the missense mutation R334W in exon 7 and the nonsense mutation R1158X in exon 19. Lymphocyte RNA analysis showed that (1) the mRNA corresponding to the complex allele is present although at markedly reduced levels; and (2) the nonsense mutation does not lead to detectable skipping of exon 19. The clinical picture of the patients with the genotype R334W‐R1158X/ΔF508 is characterized by pancreatic sufficiency and an atypical course of the disease.

A fertile male with cystic fibrosis: molecular genetic analysis.

A family study is presented in which the father of a girl with severe cystic fibrosis (CF) was also found to have CF but was mildly affected. He was diagnosed with three positive sweat tests including one after suppression with fludrocortisone. Genetic analysis showed that he is a compound heterozygote with the delta F508 CF mutation associated with haplotype B and a second CF mutation associated with haplotype C. In this unusual, fertile CF male, the late age of diagnosis (30 years) and the mild clinical picture suggest that the compound genotype (delta F508/other CF mutation) determines a much less severe form of the disease which might have gone unnoticed in the absence of a severely affected child. The implications of these findings for genetic counselling of families with CF are discussed.

Deletion of CFTR Translation Start Site Reveals Functional Isoforms of the Protein in CF Patients

Background/Aims: Mutations in the CFTR gene cause Cystic Fibrosis (CF) the most common life-threatening autosomal recessive disease affecting Caucasians. We identified a CFTR mutation (c.120del23) abolishing the normal translation initiation codon, which occurs in two Portuguese CF patients. This study aims at functionally characterizing the effect of this novel mutation. Methods: RNA and protein techniques were applied to both native tissues from CF patients and recombinant cells expressing CFTR constructs to determine whether c.120del23 allows CFTR protein production through usage of alternative internal codons, and to characterize the putative truncated CFTR form(s). Results: Our data show that two shorter forms of CFTR protein are produced when the initiation translation codon is deleted indicating usage of internal initiation codons. The N-truncated CFTR generated by this mutation has decreased stability, very low processing efficiency, and drastically reduced function. Analysis of mutants of four methionine codons downstream to M1 (M82, M150, M152, M156) revealed that each of the codons M150/M152/M156 (exon 4) can mediate CFTR alternative translation. Conclusions: The CFTR N-terminus has an important role in avoiding CFTR turnover and in rendering effective its plasma membrane traffic. These data correlate well with the severe clinical phenotype of CF patients bearing the c.120del23 mutation.

The clinical course of Burkholderia cepacia complex bacteria respiratory infection in cystic fibrosis patients

Bacteria of the Burkholderia cepacia complex (Bcc), a group of nine related species, are opportunistic pathogens in cystic fibrosis (CF) patients, associated with a poor prognosis and patient-to-patient transmissibility. The pulmonary deterioration in Bcc-colonised/ infected patients has a heterogeneous pattern leading, sometimes, to a fulminant development - the cepacia syndrome. To evaluate the relationship between colonisation/ infection by the different Bcc species and the clinical course, the authors carried out a retrospective study of 31 CF patients with Bcc bacteria isolations followed at Hospital de Santa Maria from January 1995 to March 2006. Patients were categorised into two groups: Group I, with intermittent isolations and Group II with chronic isolations. The prevalence of Bcc species was as follows: B. cepacia 57%, B. cenocepacia 43%, B. multivorans 7%, B. stabilis 13%. Three of the patients died of cepacia syndrome. The species B. cepacia and B. stabilis, usually less frequent in CF populations of Europe and America, were isolated in a considerable percentage of the patients examined. No correlation could be established between the species and the clinical outcome. Deteriorated but not stable patients from group II, whose lung function and pulmonary exacerbation caused hospitalisation could be retrospectively analysed, exhibited significant differences in the number of hospitalisations and pulmonary function (FEV1) in the year prior to and the years following Bcc isolation. Based on the available data, it is not currently possible to outline preventive measures through the molecular characterisation of Bcc isolates, reinforcing the notion that the recommended control measures must be followed.

Are there any differences in the community acquired pneumonias admitted to hospital over the past decade

The past few years have seen a decline in community acquired pneumonia (CAP) in children in the western world, although this has gone hand-in-hand with more serious cases needing hospital admission. Our study characterises cases of CAP admitted to hospital and compares this data with a 2001 study. We collected data on 63 admissions over a six-month period. The majority were aged 0-2 years old. Chest X-ray showed consolidation/atelectasy in 58 (92.1%) and pleural effusion (PE) in 17 (27.0%), of which 11 were empyema (17.4% of all admissions). The bacterial agent was isolated in five cases: Streptococcus pyogenes (two, pleural fluid), Streptococcus pneumoniae (two, blood culture) and Haemophilus influenzae (one, blood culture). Sixty-one children (96.8%) were prescribed antibiotherapy. The median length of hospital stay was five days. Patients with PE were older, had a longer course of fever, higher inflammatory parameters, longer hospital stay and longer course of iv antibiotics. Compared to the prior study we found greater severity of CAP, with higher prevalence of PE and empyema. Nevertheless there was a shorter course of fever during hospital stay and shorter hospital stay. We also noticed less antibiotic prescription prior to admission and greater prescription of ampicillin during hospital stay. In the literature, the higher severity of CAP has been partially attributed to the emergence of more aggressive serotypes of Stretococcus pneumoniae not included in the heptavalent vaccine. There is therefore a greater interest in new vaccines containing them. Complicated CAP should be referred to centres specialising in its diagnosis and management.

Infecção respiratória por bactérias do complexo Burkholderia cepacia: Evolução clínica em doentes com fibrose quística

Bacteria of the Burkholderia cepacia complex (Bcc), a group of nine related species, are opportunistic pathogens in cystic fibrosis (CF) patients, associated with a poor prognosis and patient-to-patient transmissibility. The pulmonary deterioration in Bcc-colonised/ infected patients has a heterogeneous pattern leading, sometimes, to a fulminant development – the cepacia syndrome. To evaluate the relationship between colonisation/ infection by the different Bcc species and the clinical course, the authors carried out a retrospective study of 31 CF patients with Bcc bacteria isolations followed at Hospital de Santa Maria from January 1995 to March 2006. Patients were categorised into two groups: Group I, with intermittent isolations and Group II with chronic isolations. The prevalence of Bcc species was as follows: B. cepacia 57%, B. cenocepacia 43%, B. multivorans 7%, B. stabilis 13%. Three of the patients died of cepacia syndrome. The species B. cepacia and B. stabilis, usually less frequent in CF populations of Europe and America, were isolated in a considerable percentage of the patients examined. No correlation could be established between the species and the clinical outcome. Deteriorated but not stable patients from group II, whose lung function and pulmonary exacerbationcaused hospitalisation could be retrospectively analysed, exhibited significant differences in the number of hospitalisations and pulmonary function (FEV1) in the year prior to and the years following Bcc isolation. Based on the available data, it is not currently possible to outline preventive measures through the molecular characterisation of Bcc isolates, reinforcing the notion that the recommended control measures must be followed. Rev Port Pneumol 2008; XIV (1): 5-26