Cystic fibrosis transmembrane conductance regulator gene mutations: do they play a role in the aetiology of allergic bronchopulmonary aspergillosis?

BACKGROUND: Previous work suggests that cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations may be implicated in the aetiology of allergic bronchopulmonary aspergilosis (ABPA). OBJECTIVE: To compare the frequency of CF gene mutations in asthmatics with ABPA of varying severity with asthmatics who were skin prick test (SPT)-positive to Aspergillus fumigatus (Af) without evidence of ABPA and asthmatics SPT-negative to Af. METHODS: Thirty-one Caucasian patients with ABPA were identified, together with asthmatics SPT positive to Af without evidence of ABPA (n = 23) and SPT negative to Af (n = 28). Genomic DNA was tested for 16 CF mutations accounting for approximately 85% of CF alleles in Caucasian New Zealanders. RESULTS: Four (12.9%) ABPA patients were found to be carriers of a CF mutation (DeltaF508 n = 3, R117H n = 1), one (4.3%) asthmatic SPT positive to Af without ABPA (DeltaF508), and one (3.6%) asthmatic SPT negative to Af (R117H). All patients with a CF mutation had normal sweat chloride (< 40 mM). There was no significant difference between the frequency of CF mutations in the ABPA patients and asthmatics without ABPA. However, the frequency of CF mutations in the ABPA patients was significantly different (P = 0.0125) to the expected carrier rate in the general population. CONCLUSION: These results lend further support to a possible link between CF mutations and ABPA.     

Fluorescence-based oligonucleotide ligation assay for analysis of cystic fibrosis transmembrane conductance regulator gene mutations

Isolation of the gene for cystic fibrosis (CF), the cystic fibrosis transmembrane conductance regulator (CFTR), provided a basis for analyzing its molecular pathology and resulted in the identification of < 400 mutations associated with disease. Except for the ΔF508 mutation, no other single mutation accounts for > 5% of CF chromosomes in most populations, and most mutation frequencies are < 1%. A strategy based on multiplex PCR followed by multiplex allele-specific oligonucleotide probe ligation was used to detect 30 mutations, distributed throughout ten exons and seven introns of the CFTR gene, that together account for > 96% of CF mutant chromosomes worldwide. Mutations were detected by competitive oligonucleotide probe ligation to detect normal and/or mutant genotypes in one reaction. Three probes (one common and two allelic probes) were needed for analysis of each mutation. Probes hybridized to target DNA were joined by a thermostable ligase if there were no mismatches at their junctions; temperature cycling resulted in a linear increase in product. Common probes were labeled with fluorochromes, and allelic probes each had different lengths. Ligation products were analyzed electrophoretically on a fluorescent DNA sequencer. The results show that combined PCR and probe ligation amplification rapidly and reliably screen for CF homozygotes and carriers. © Wiley-Liss, Inc.     

囊性纤维变性跨膜调节器基因突变对男性生殖的影响

1　ＣＦＴＲ基因突变及主要症状囊性纤维变性跨膜调节器 (ｃｙｓｔｉｃｆｉｂｒｏｓｉｓｔｒａｎｓ ｍｅｍｂｒａｎｅｃｏｎｄｕｃｔａｎｃｅｒｅｇｕｌａｔｏｒ,ＣＦＴＲ)基因于 1989年被发现 ,位于人的第 7染色体上。其编码的蛋白是一种膜蛋白 ,这种跨膜蛋白是一个Ｃｌ- 离子通道蛋白 ,受ｃＡＭＰ的调控。正常的ＣＦＴＲ由 14 80个氨基酸组成 ,含有两个结构区 ,每个结构区含有 6个跨膜片段[1] ,由称为Ｒ -结构域的多肽链连接 ,Ｒ -结构域上有大量的磷酸化位点 ,还有两个核苷酸结合位点(ｎｕｃｌｅｏｔｉｄｅｂｉｎｄｉｎｇｆｏｌｄｓ ,Ｎ…     

Reduced IL-10 secretion by CD4+ T lymphocytes expressing mutant cystic fibrosis transmembrane conductance regulator (CFTR)

Expression of the CFTR protein is thought to be physiologically important only in exocrine epithelial cells. However, chronic respiratory inflammation and infection remain unexplained phenomena in disease pathogenesis. Non-transformed, antigen-responsive CD4⁺ T cells cloned from healthy controls and CF patients homozygous or heterozygous for the δF508 mutation transcribed CFTR mRNA and expressed immunoreactive cytoplasmic CFTR protein. T cell clones (TCC) from controls and CF patients displayed equivalent Ca²⁺-mediated Cl⁻ current; however, TCC from patients with CF but not controls displayed defective cAMP-mediated Cl⁻ current. Although CF-derived TCC preserved mitogen and antigen proliferative responses and specificity to tetanus toxoid epitopes, they selectively secreted ≈ 45% less IL-10 compared with control TCC after activation with concanavalin A (Con A) (624 ± 101 versus 1564 ± 401 pg/ml per 10⁶ cells, respectively; P = 0.04) or anti-CD3/phorbol ester (5148 ± 1634 versus 11 788 ± 2390 pg/ml; P = 0.05). This difference was independent of atopy. Secretion of interferon-gamma, IL-2, and IL-4 was comparable in CF and control TCC after both forms of activation, while IL-5 was reduced in CF TCC following anti-CD3/phorbol myristate acetate (PMA) but not after Con A. We conclude that expression of mutant CFTR in human TCC is accompanied by ion channel dysfunction characteristic of the CF phenotype, and is accompanied by a reduction in IL-10 secretion after polyclonal activation. It is possible that disruption of IL-10-mediated anti-inflammatory homeostasis may contribute to early onset sustained inflammation in CF airways.     

A cystic fibrosis allele encoding missense mutations in both nucleotide binding folds of the cystic fibrosis transmembrane conductance regulator.

German cystic fibrosis (CF) chromosomes were screened for molecular lesions in exon 20 of the cystic fibrosis transmembrane conductance regulator (CFTR) gene by chemical cleavage of mismatch. An 3884G-to-A transition was detected in two patients which leads to an exchange of a serine by an asparagine in the Walker motif A of the second nucleotide binding fold. The affected serine residue is evolutionarily strongly conserved among the pro- and eukaryotic members of the protein superfamily of traffic ATPases. The two S1251N alleles were linked to the benign missense mutation F508C which is located in another conserved region of CFTR, the center region of the first nucleotide binding fold. Both patients with the complex allele F508C-S1251N are carrying delta F508 on the other CF chromosome and are suffering from severe pulmonary and gastrointestinal CF disease. Although F508C has been classified as a neutral sequence variation because of its discovery in healthy delta F508 gene carriers, it may nevertheless influence CFTR dysfunction caused by the S1251N mutation.     

Expression of cystic fibrosis transmembrane conductance regulator in the human distal lung

The determination of the expression of cystic fibrosis transmembrane conductance regulator (CFTR) in the lung is essential for a full understanding of the normal lung physiology and the pathogenesis of the lung disease in cystic fibrosis (CF). However, studies on the expression of CFTR in the distal adult human lung have yielded conflicting results despite functional evidence of expression of CFTR in bronchiolar and alveolar epithelial cells. We used 2 high-affinity monoclonal anti-CFTR antibodies, MAb24-1 and MAb13-1, to determine the expression of CFTR in samples of bronchiolar and alveolar tissues obtained from the same non-CF individuals. CFTR immunostaining was detected in the epithelium of bronchiolar and alveolar tissues. The staining pattern was similar with both antibodies. In bronchioles, CFTR labeling was present mostly in ciliated cells; in alveoli, CFTR labeling was detected in both type I and type II cells. We conclude that CFTR is expressed in human bronchiolar and alveolar epithelial cells. The potential importance of CFTR expression in alveoli should be further investigated, particularly with respect to the CF lung disease and the physiology of the alveolar region.     

Cystic fibrosis transmembrane conductance regulator gene screening and clinical correlation in Taiwanese males with congenital bilateral absence of the vas deferens

BACKGROUND: In Taiwan, an area with a very low incidence of cystic fibrosis (CF), we first screened for the most common mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene and looked for clinical correlations in 27 patients with clinically diagnosed congenital bilateral absence of the vas deferens (CBAVD). METHODS AND RESULTS: The clinical results showed that none of the 27 patients had CF symptoms. We did not detect any definite renal anomaly ultrasonographically. Mutation analysis was carried out on these 27 cases and 46 normal fertile males as controls. No mutations of Delta F508 or R117H were identified in any of the samples analysed. In the screening of IVS8-poly T, five of the 27 CBAVD patients showed the homozygous genotype for 5T/5T, 14 showed the heterozygous genotype for 5T/7T and eight showed the homozygous genotype for 7T/7T. The frequency of 5T alleles was 44.4%, which was significantly higher than in the 46 normal fertile males, for which there was a 5T frequency of 5.4%. CONCLUSIONS: The absence of major mutations of CFTR genes could be related to the much lower CF incidence in Taiwan. Further investigations into differences in the mutation spectrum of other CFTR genes are needed for a better understanding of the development of Taiwanese-Oriental CBAVD.     

Direct effects of 9-anthracene compounds on cystic fibrosis transmembrane conductance regulator gating

Anthracene-9-carboxylic acid (9-AC) has been reported to show both potentiation and inhibitory effects on guinea-pig cardiac cAMP-activated chloride channels via two different binding sites, and inhibition of Mg²⁺-sensitive protein phosphatases has been proposed for the mechanism of 9-AC potentiation effect. In this study, we examined the effects of 9-AC on wild-type and mutant human cystic fibrosis transmembrane conductance regulator (CFTR) chloride channels expressed in NIH3T3 or CHO cells. 9-AC inhibits whole-cell CFTR current in a voltage-dependent manner, whereas the potentiation effect is not affected by membrane potentials. Anthracene-9-methanol, an electro-neutral 9-AC analog, fails to block CFTR, but shows a nearly identical potentiation effect, corroborating the idea that two chemically distinct sites are responsible, respectively, for potentiation and inhibitory actions of 9-AC. 9-AC also enhances the activity of R-CFTR, a constitutively active CFTR mutant whose R-domain is removed. In excised inside-out patches, 9-AC increases P_o by prolonging the mean burst durations and shortening the interburst durations. We therefore conclude that two different 9-AC binding sites for potentiation and inhibitory effects on CFTR channels are located outside of the R-domain. We also speculate that 9-AC potentiates CFTR activity by directly affecting CFTR gating.     

Detection of cystic fibrosis transmembrane conductance regulator (CFTR) gene rearrangements enriches the mutation spectrum in congenital bilateral absence of the vas deferens and impacts on genetic counselling

BACKGROUND: Mutations in the cystic fibrosis (CF) transmembrane conductanceregulator (CFTR) gene have been widely detected in infertilemen with congenital bilateral absence of the vas deferens (CBAVD).Despite extensive analysis of the CFTR gene using varied screeningmethods, a number of cases remain unsolved and could be attributableto the presence of large gene rearrangements, as recently shownfor CF patients. METHODS: We carried out a complete CFTR gene study in a group of 222CBAVD patients with strict diagnosis criteria and without renalanomaly, and searched for rearrangements using a semi-quantitativeassay in a subgroup of 61 patients. RESULTS: The overall mutation detection rate was 87.8%, and 82% of patientscarried two mutations. Ten out of the 99 different mutationsaccounted for 74.6% of identified alleles. Four large rearrangementswere found in patients who already carried a mild mutation:two known partial deletions (exons 17a to 18 and 22 to 23),a complete deletion and a new partial duplication (exons 11to 13). The rearrangements accounted for 7% of the previouslyunknown alleles and 1% of all identified alleles. CONCLUSIONS: Screening for rearrangements should be part of comprehensiveCFTR gene studies in CBAVD patients and may have impacts ongenetic counselling for the patients and their families.     

Type IV(B) pili are required for invasion but not for adhesion of Salmonella enterica serovar Typhi into BHK epithelial cells in a cystic fibrosis transmembrane conductance regulator-independent manner

The cystic fibrosis transmembrane conductance regulator (CFTR) has been proposed as an epithelial cell receptor for the entry of Salmonella Typhi but not Salmonella Typhimurium. The bacterial ligand recognized by CFTR is thought to reside either in the S. Typhi lipopolysaccharide core region or in the type IV pili. Here, we assessed the ability of virulent strains of S. Typhi and S. Typhimurium to adhere to and invade BHK epithelial cells expressing either the wild-type CFTR protein or the ?F508 CFTR mutant. Both S. Typhi and S. Typhimurium invaded the epithelial cells in a CFTR-independent fashion. Furthermore and also in a CFTR-independent manner, a S. Typhi pilS mutant adhered normally to BHK cells but displayed a 50% reduction in invasion as compared to wild-type bacteria. Immunofluorescence microscopy revealed that bacteria and CFTR do not colocalize at the epithelial cell surface. Together, our results strongly argue against the established dogma that CFTR is a receptor for entry of Salmonella to epithelial cells.     

CFTR and defective endocytosis: new insights in the renal phenotype of cystic fibrosis

Inactivation of the chloride channel cystic fibrosis transmembrane conductance regulator (CFTR) causes cystic fibrosis (CF). Although CFTR is expressed in the kidney, no overwhelming renal phenotype is associated with CF. Recent studies have shown that the level of CFTR mRNA in mouse kidney approaches that found in lung. CFTR is particularly abundant in the apical area of proximal tubule cells, where it co-distributes with the Cl(-)/H(+) exchanger ClC-5 and Rab5a in endosomes. The biological relevance of CFTR in proximal tubule endocytosis has been tested in CF mouse models and CF patients. Mice lacking CFTR show a defective receptor-mediated endocytosis, as evidenced by impaired uptake of (125)I-beta(2)-microglobulin, a decreased expression of the cubilin receptor in the kidney, and a significant excretion of cubilin and its low-molecular-weight ligands into the urine. Low-molecular-weight proteinuria (and particularly transferrinuria) is similarly detected in CF patients in comparison with normal controls or patients with chronic lung inflammation. These studies suggest that the functional loss of CFTR impairs the handling of low-molecular-weight proteins by the kidney, supporting a role of CFTR in receptor-mediated endocytosis in proximal tubule cells. The selective proteinuria should be integrated in the pathophysiology of multi-systemic complications increasingly observed in CF patients.     

Complete mutational screening of the cystic fibrosis transmembrane conductance regulator gene: cystic fibrosis mutations are not involved in healthy men with reduced sperm quality

Based on the analysis of the most frequent mutations responsible for cystic fibrosis (CF), a higher than expected frequency of CF mutations was recently reported in men with infertility due to reduced sperm quality. To further document whether this condition is associated with severe or mild abnormalities of cystic fibrosis transmembrane conductance regulator (CFTR) functions, we carried out a complete scanning of CFTR sequences using a strategy that detects almost all 850 mutations and 150 polymorphisms reported to date in the CFTR gene. We have investigated a cohort of 56 patients with severe oligoasthenoteratozoospermia (OAT) and 50 controls from southern France for CFTR gene mutations and variations. The frequencies of CF-causing mutations and CFTR variations identified in this OAT sample did not differ significantly from the frequencies found in the normal population. However, we observed a 1.7-fold increase in the proportion of homozygotes for a specific CFTR haplotype (TG11-T7-G1540) in the OAT group (P = 0.025). Our results do not confirm a link between CF mutations and reduced sperm quality. Further studies are needed to substantiate the hypothesis that a combination of variants affecting expression and function of the CFTR protein is associated with male infertility.     

Regulation of epithelial ion channels by the cystic fibrosis transmembrane conductance regulator

In most epithelia ion transport is tightly regulated. One major primary target of such regulation is the modulation of ion channels. The present brief review focuses on one specific example of ion channel regulation by the cystic fibrosis transmembrane conductance regulator (CFTR). CFTR functions as a cAMP-regulated Cl^- channel. Its defect leads to the variable clinical pictures of cystic fibrosis (CF), which today is understood as a primary defect of epithelial Cl^- channels in a variety of tissues such as the respiratory tract, intestine, pancreas, skin, epididymis, fallopian tube, and others. Most recent findings suggest that CFTR also acts as a channel regulator. Three examples are discussed by which CFTR regulates other Cl^- channels, K⁺ channels, and epithelial Na⁺ channels. From this perspective it is evident that CFTR may play a major role in the integration of cellular function.Abbreviations CF Cystic fibrosis - CFTR Cystic fibrosis transmembrane conductance regulator - IBMX Isobutylmethylxanthine - ICOR Intermediate conductance outwardly rectifying - MDR Multidrug resistance protein Supported by DFG: Gr 480/11     

Atypical Cystic Fibrosis and CFTR-Related Diseases

Cystic fibrosis (CF), which is among the most common life-shortening recessive illnesses, is caused by mutations of the CF transmembrane conductance regulator (CFTR) and typically involves chronic infection and progressive obstruction of the respiratory tract as well as pancreatic exocrine insufficiency. Disease severity, to some extent, correlates with organ sensitivity to CFTR dysfunction and to the amount of functional protein, which is influenced by the type of mutation. Atypical CF represents approximately 2% of affected individuals, and includes cases presenting in adolescence or adulthood with pancreatic exocrine sufficiency, normal or borderline sweat chloride concentrations, or with a single predominant clinical feature. This review briefly describes diagnostic methods and phenotypic characteristics of classic and atypical CF, as well as CFTR-related diseases, conditions in which mutated CFTR may contribute to the pathogenesis but do not strictly fit established diagnostic criteria.     

First report of cystic fibrosis mutations in Libyan cystic fibrosis patients

Background: There are few data on the molecular basis of Cystic Fibrosis (CF) in North Africa, probably due to under-diagnosis.

Aim: This is the first study of cystic fibrosis transmembrane conductance regulator (CFTR) mutations in the Libyan population.

Subjects and methods: This study analysed the complete coding region and flanking intronic sequences of the CFTR gene in 10 unrelated Libyan CF patients.

Results: This study identified four mutations (F508del, c.1670delC, N1303K and E1104X), with a high frequency of the latter.

Conclusion: Identification of CF mutations facilitates molecular investigation of cystic fibrosis in the Libyan population and helps to provide effective genetic counselling among CF families.