Genetic Analysis of Hispanic Individuals with Cystic Fibrosis

We have performed molecular genetic analyses of Hispanic individuals with cystic fibrosis (CF) in the southwestern United States. Of 129 CF chromosomes analyzed, only 46% (59/129) carry ΔF508. The G542X mutation was found on 5% (7/129) of CF chromosomes. The 3849+10kbC→T mutation, detected primarily in Ashkenazi Jews, was present on 2% (3/129). R1162X and R334W, mutations identified in Spain and Italy, each occurred on 1.6% (2/129) of CF chromosomes. W1282X and R553X were each detected once. G551D and N1303K were not found. Overall, screening for 22 or more mutations resulted in detection of only 58% of CF transmembrane conductance regulator gene mutations among Hispanic individuals. Analysis of KM19/XV2c haplotypes revealed an unusual distribution. Although the majority of ΔF508 mutations are on chromosomes of B haplotypes, the other CF mutations are on A and C haplotypes at higher-than-expected frequencies. These genetic analyses demonstrate significant differences between Hispanic individuals with CF and those of the general North American population. Assessment of carrier/affected risk in Hispanic CF individuals cannot, therefore, be based on the mutation frequencies found through studies of the general population but must be adjusted to better reflect the genetic makeup of this ethnic group. Further studies are necessary to identify the causative mutation(s) in this population and to better delineate genotype/phenotype correlations. These will enable counselors to provide more accurate genetic counseling.     

Metagenomic Analysis of Viral Communities in (Hado)Pelagic Sediments

In this study, we analyzed viral metagenomes (viromes) in the sedimentary habitats of three geographically and geologically distinct (hado)pelagic environments in the northwest Pacific; the Izu-Ogasawara Trench (water depth = 9,760 m) (OG), the Challenger Deep in the Mariana Trench (10,325 m) (MA), and the forearc basin off the Shimokita Peninsula (1,181 m) (SH). Virus abundance ranged from 10⁶ to 10¹¹ viruses/cm³ of sediments (down to 30 cm below the seafloor [cmbsf]). We recovered viral DNA assemblages (viromes) from the (hado)pelagic sediment samples and obtained a total of 37,458, 39,882, and 70,882 sequence reads by 454 GS FLX Titanium pyrosequencing from the virome libraries of the OG, MA, and SH (hado)pelagic sediments, respectively. Only 24−30% of the sequence reads from each virome library exhibited significant similarities to the sequences deposited in the public nr protein database (E-value <10⁻³ in BLAST). Among the sequences identified as potential viral genes based on the BLAST search, 95−99% of the sequence reads in each library were related to genes from single-stranded DNA (ssDNA) viral families, including Microviridae, Circoviridae, and Geminiviridae. A relatively high abundance of sequences related to the genetic markers (major capsid protein [VP1] and replication protein [Rep]) of two ssDNA viral groups were also detected in these libraries, thereby revealing a high genotypic diversity of their viruses (833 genotypes for VP1 and 2,551 genotypes for Rep). A majority of the viral genes predicted from each library were classified into three ssDNA viral protein categories: Rep, VP1, and minor capsid protein. The deep-sea sedimentary viromes were distinct from the viromes obtained from the oceanic and fresh waters and marine eukaryotes, and thus, deep-sea sediments harbor novel viromes, including previously unidentified ssDNA viruses.     

Culture-Independent Identification of Nontuberculous Mycobacteria in Cystic Fibrosis Respiratory Samples

Respiratory tract infections with nontuberculous mycobacteria (NTM) are increasing in prevalence and are a significant cause of lung function decline in individuals with cystic fibrosis (CF). NTM have been detected in culture-independent analyses of CF airway microbiota at lower rates than would be expected based on published prevalence data, likely due to poor lysing of the NTM cell wall during DNA extraction. We compared a standard bacterial lysis protocol with a modified method by measuring NTM DNA extraction by qPCR and NTM detection with bacterial 16S rRNA gene sequencing. The modified method improved NTM DNA recovery from spiked CF sputum samples by a mean of 0.53 log₁₀ copies/mL for M. abscessus complex and by a mean of 0.43 log₁₀ copies/mL for M. avium complex as measured by qPCR targeting the atpE gene. The modified method also improved DNA sequence based NTM detection in NTM culture-positive CF sputum and bronchoalveolar lavage samples; however, both qPCR and 16S rRNA gene sequencing remained less sensitive than culture for NTM detection. We highlight the limitations of culture-independent identification of NTM from CF respiratory samples, and illustrate how alterations in the bacterial lysis and DNA extraction process can be employed to improve NTM detection with both qPCR and 16S rRNA gene sequencing.     

Emergence of Respiratory Streptococcus agalactiae Isolates in Cystic Fibrosis Patients

Streptococcus agalactiae is a well-known pathogen for neonates and immunocompromized adults. Beyond the neonatal period, S. agalactiae is rarely found in the respiratory tract. During 2002–2008 we noticed S. agalactiae in respiratory secretions of 30/185 (16%) of cystic fibrosis (CF) patients. The median age of these patients was 3–6 years older than the median age CF patients not harboring S. agalactiae. To analyze, if the S. agalactiae isolates from CF patients were clonal, further characterization of the strains was achieved by capsular serotyping, surface protein determination and multilocus sequence typing (MLST). We found a variety of sequence types (ST) among the isolates, which did not substantially differ from the MLST patterns of colonizing strains from Germany. However serotype III, which is often seen in colonizing strains and invasive infections was rare among CF patients. The emergence of S. agalactiae in the respiratory tract of CF patients may represent the adaptation to a novel host environment, supported by the altered surfactant composition in older CF patients.     

High Individuality of Respiratory Bacterial Communities in a Large Cohort of Adult Cystic Fibrosis Patients under Continuous Antibiotic Treatment

BackgroundRoutine clinical diagnostics of CF patients focus only on a restricted set of well-known pathogenic species. Recent molecular studies suggest that infections could be polymicrobial with many bacteria not detected by culture-based diagnostics.ConclusionsThe high individuality in community composition and the lack of correlation to clinical host factors might be due to the continuous treatment with antibiotics. Since this is current practice for adult CF patients, the life-long history of the patient and the varying selection pressure on the related microbial communities should be a focus of future studies and its relation to disease progression. These studies should be substantially larger, providing more molecular information on the microbial communities complemented by detailed genetic assessment of the host.     

Metagenomic Analysis of the Ferret Fecal Viral Flora

Ferrets are widely used as a small animal model for a number of viral infections, including influenza A virus and SARS coronavirus. To further analyze the microbiological status of ferrets, their fecal viral flora was studied using a metagenomics approach. Novel viruses from the families Picorna-, Papilloma-, and Anelloviridae as well as known viruses from the families Astro-, Corona-, Parvo-, and Hepeviridae were identified in different ferret cohorts. Ferret kobu- and hepatitis E virus were mainly present in human household ferrets, whereas coronaviruses were found both in household as well as farm ferrets. Our studies illuminate the viral diversity found in ferrets and provide tools to prescreen for newly identified viruses that potentially could influence disease outcome of experimental virus infections in ferrets.     

Metagenomic Profile of the Viral Communities in Rhipicephalus spp. Ticks from Yunnan,China

Besides mosquitoes, ticks are regarded as the primary source of vector-borne infectious diseases. Indeed, a wide variety of severe infectious human diseases, including those involving viruses, are transmitted by ticks in many parts of the world. To date, there are no published reports on the use of next-generation sequencing for studying viral diversity in ticks or discovering new viruses in these arthropods from China. Here, Ion-torrent sequencing was used to investigate the presence of viruses in three Rhipicephalus spp. tick pools (NY-11, NY-13, and MM-13) collected from the Menglian district of Yunnan, China. The sequencing run resulted in 3,641,088, 3,106,733, and 3,871,851 reads in each tick pool after trimming. Reads and assembled contiguous sequences (contigs) were subject to basic local alignment search tool analysis against the GenBank database. Large numbers of reads and contigs related to known viral sequences corresponding to a broad range of viral families were identified. Some of the sequences originated from viruses that have not been described previously in ticks. Our findings will facilitate better understanding of the tick virome, and add to our current knowledge of disease-causing viruses in ticks living under natural conditions.     

Viral Co-Infections in Pediatric Patients Hospitalized with Lower Tract Acute Respiratory Infections

Background

Molecular techniques can often reveal a broader range of pathogens in respiratory infections. We aim to investigate the prevalence and age pattern of viral co-infection in children hospitalized with lower tract acute respiratory infection (LT-ARI), using molecular techniques.

Methods

A nested polymerase chain reaction approach was used to detect Influenza (A, B), metapneumovirus, respiratory syncytial virus (RSV), parainfluenza (1–4), rhinovirus, adenovirus (A—F), bocavirus and coronaviruses (NL63, 229E, OC43) in respiratory samples of children with acute respiratory infection prospectively admitted to any of the GENDRES network hospitals between 2011–2013. The results were corroborated in an independent cohort collected in the UK.

Results

A total of 204 and 97 nasopharyngeal samples were collected in the GENDRES and UK cohorts, respectively. In both cohorts, RSV was the most frequent pathogen (52.9% and 36.1% of the cohorts, respectively). Co-infection with multiple viruses was found in 92 samples (45.1%) and 29 samples (29.9%), respectively; this was most frequent in the 12–24 months age group. The most frequently observed co-infection patterns were RSV—Rhinovirus (23 patients, 11.3%, GENDRES cohort) and RSV—bocavirus / bocavirus—influenza (5 patients, 5.2%, UK cohort).

Conclusion

The presence of more than one virus in pediatric patients admitted to hospital with LT-ARI is very frequent and seems to peak at 12–24 months of age. The clinical significance of these findings is unclear but should warrant further analysis.     

Respiratory Syncytial Virus Engineered To Express the Cystic Fibrosis Transmembrane Conductance Regulator Corrects the Bioelectric Phenotype of Human Cystic Fibrosis Airway Epithelium In Vitro

Cystic fibrosis (CF) is the most common lethal recessive genetic disease in the Caucasian population. It is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene that is normally expressed in ciliated airway epithelial cells and the submucosal glands of the lung. Since the CFTR gene was first characterized in 1989, a major goal has been to develop an effective gene therapy for CF lung disease, which has the potential to ameliorate morbidity and mortality. Respiratory syncytial virus (RSV) naturally infects the ciliated cells in the human airway epithelium. In addition, the immune response mounted against an RSV infection does not prevent subsequent infections, suggesting that an RSV-based vector might be effectively readministered. To test whether the large 4.5-kb CFTR gene could be expressed by a recombinant RSV and whether infectious virus could be used to deliver CFTR to ciliated airway epithelium derived from CF patients, we inserted the CFTR gene into four sites in a recombinant green fluorescent protein-expressing RSV (rgRSV) genome to generate virus expressing four different levels of CFTR protein. Two of these four rgRSV-CFTR vectors were capable of expressing CFTR with little effect on viral replication. rgRSV-CFTR infection of primary human airway epithelial cultures derived from CF patients resulted in expression of CFTR protein that was properly localized at the luminal surface and corrected the chloride ion channel defect in these cells.Cystic fibrosis (CF) is an autosomal recessive genetic disease that occurs with an incidence of 1 in every 3,400 live Caucasian births in the United States and is one of the most common fatal hereditary diseases in the world (47). CF is caused by a mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) gene that encodes a low-conductance ATP- and cyclic AMP (cAMP)-dependent chloride ion (Cl⁻) channel. More than 1,500 mutations that can lead to various degrees of CF have been found in CFTR. The most common mutation found in individuals of European descent is a deletion of 3 nucleotides in the CFTR gene resulting in the loss of phenylalanine at position 508 of the CFTR protein (ΔF508). This mutation results in the translation of a protein that folds improperly, causing it to be degraded upon exit from the endoplasmic reticulum. Since 90% of the mortality caused by CF results from lung pathology, restoring functional CFTR to the airways of CF patients remains a goal of gene replacement therapeutics for the disease. In the lung, CFTR is expressed by the respiratory epithelium that lines the lumen of the airways, where it is localized to the apical membrane of ciliated cells and the submucosal gland ductal epithelium (20, 40, 48). CFTR is responsible for the movement of Cl⁻ ions across the apical membranes of the airway epithelium and, in combination with sodium ion (Na⁺) transport, it dictates the volume of airway surface liquid that facilitates mucus transport and mucociliary clearance. Lack of functional CFTR in the cell membrane decreases Cl⁻ ion secretion; a net increase in the intracellular Cl⁻ ion concentration is then followed by increased uptake of sodium (Na⁺) ions by epithelial sodium channels (ENaCs). This additional intracellular ion concentration results in a net increase in water uptake into the cell (68). In patients with CF, the fundamental consequence of CFTR dysfunction in the airway is dehydration of the airway surface liquid (ASL) and an increase in the viscosity of the mucus secretions that coat the respiratory tract. This thickened mucus leads to plugging of the airways, in addition to decreased airway clearance, resulting in an increased susceptibility to both bacterial and viral airway pathogens.Early in vitro experiments using the available recombinant adenoviruses (AdV) and adeno-associated viruses (AAV) showed some efficacy in airway cell transduction (29, 67); however, the human clinical trials were less promising due to the low efficiency of CFTR delivery to the appropriate cells and short-lived CFTR expression, primarily as a consequence of the innate and adaptive immune responses (28, 34, 39, 90). Further studies revealed that CAR, the coxsackievirus and AdV receptor, and heparan sulfate, the AAV receptor, are both expressed on the basolateral surface of the human airway, likely providing another explanation for the poor transduction efficiency of airway cells by these vectors when introduced apically (7, 62, 77, 92). More recently, AAV serotypes that transduce the airway epithelium at a much higher rate have been identified, and additional improvements have been made by mutagenesis, capsid shuffling, and directed evolution (24, 36, 52-54, 78, 89). Lentiviral vectors for the delivery of CFTR to CF patients have also been examined, and improvements have been made, but efficiency and safety concerns persist (33, 41, 57, 72, 76, 85). Here, we suggest a potential viral vector to treat CF that naturally targets the airways.In vitro studies in which CF cells and CFTR-corrected CF cells have been mixed in measured ratios have determined that CFTR expression in 6 to 10% of respiratory cells returns Cl⁻ transport to levels similar to those measured in non-CF epithelial cell cultures (2, 42). However, this low level of correction may not repair some of the other associated defects, such as sodium hyperabsorption and mucus dehydration (40). Similar studies performed by mixing airway epithelial cells from CF and non-CF patients to create mixed well-differentiated human airway epithelial cell (HAE) cultures indicated that if 20% of the cells expressed endogenous levels of CFTR, this correlated with 70% of the Cl⁻ channel response measured in cultures made with 100% non-CF cells (25). More recently, infection of HAE cultures with a recombinant parainfluenza virus type 3 (PIV3) vector engineered to express CFTR was shown to fully correct the Cl⁻ transport defect in HAE cultures. In these studies, CFTR delivery to 25% of the surface airway epithelial cells was required to restore airway surface liquid volume and mucus transport to normal non-CF levels (93). Collectively, these in vitro experiments, in relevant airway cell models, suggest that an effective vector for CFTR delivery would need to target at least 25% of the airway surface epithelial cells.Respiratory syncytial virus (RSV) is a single-stranded negative-sense RNA virus that infects the ciliated cells of the airway epithelium of the human respiratory tract (94). Most individuals become infected with RSV during the first and second years of life; however, due to incomplete immunity, individuals can be reinfected by RSV throughout their lifetimes. In most cases, infection results in only mild, self-limited, common cold-like symptoms, although a proportion of primary infections do involve lower respiratory tract disease. Serious illness, which typically involves bronchiolitis or pneumonia, is usually restricted to young infants or the frail elderly. Although RSV infects CF patients at the same frequency that it infects their age-matched siblings, CF patients tend to develop more frequent lower respiratory tract illness. It has been shown that CF patients require more frequent hospitalization due to RSV infection when they are young, but this decreases with age, as it does for healthy children (32, 87). Since RSV can infect the lungs of CF patients, it appears that it can not only navigate through the physical barriers of the normal respiratory tract, but can also make its way through the sticky and mucus-rich environment of the CF lung. In addition, RSV has other features that suggest it might have advantages as a gene therapy vector for the delivery of CFTR to the airways of CF patients. RSV has a tropism for the luminal ciliated cells of the airway, which are a relevant target for CFTR gene therapy (40, 48), and RSV has been shown to lack the overt cytopathology of other respiratory viruses, suggesting that it will not rapidly destroy the cells that it infects (94). RSV also has the ability to reinfect, implying that multiple sequential administrations of an RSV-based vector would be possible.Here, we tested the utility of RSV as a CFTR gene transfer vector. The CFTR gene was inserted into four different sites in the RSV genome to obtain a range of expression levels. The vector was then evaluated for the ability to deliver CFTR to the ciliated cells in an in vitro model of the human airway (HAE). We show that RSV delivered CFTR to ciliated cells and resulted in sufficient transduction efficiency and functional CFTR expression to fully correct the Cl⁻ transport bioelectric defect in primary HAE cultures derived from CF patients. These data support continued efforts to explore the utility of RSV-based vectors as potential gene delivery vectors for the treatment of CF lung disease.     

Comparative Metagenomic Analysis of Coral Microbial Communities Using a Reference-Independent Approach

By comparing the SEED and Pfam functional profiles of metagenomes of two Brazilian coral species with 29 datasets that are publicly available, we were able to identify some functions, such as protein secretion systems, that are overrepresented in the metagenomes of corals and may play a role in the establishment and maintenance of bacteria-coral associations. However, only a small percentage of the reads of these metagenomes could be annotated by these reference databases, which may lead to a strong bias in the comparative studies. For this reason, we have searched for identical sequences (99% of nucleotide identity) among these metagenomes in order to perform a reference-independent comparative analysis, and we were able to identify groups of microbial communities that may be under similar selective pressures. The identification of sequences shared among the metagenomes was found to be even better for the identification of groups of communities with similar niche requirements than the traditional analysis of functional profiles. This approach is not only helpful for the investigation of similarities between microbial communities with high proportion of unknown reads, but also enables an indirect overview of gene exchange between communities.     

Comparative Metagenomic Analysis of Soil Microbial Communities across Three Hexachlorocyclohexane Contamination Levels

This paper presents the characterization of the microbial community responsible for the in-situ bioremediation of hexachlorocyclohexane (HCH). Microbial community structure and function was analyzed using 16S rRNA amplicon and shotgun metagenomic sequencing methods for three sets of soil samples. The three samples were collected from a HCH-dumpsite (450 mg HCH/g soil) and comprised of a HCH/soil ratio of 0.45, 0.0007, and 0.00003, respectively. Certain bacterial; (Chromohalobacter, Marinimicrobium, Idiomarina, Salinosphaera, Halomonas, Sphingopyxis, Novosphingobium, Sphingomonas and Pseudomonas), archaeal; (Halobacterium, Haloarcula and Halorhabdus) and fungal (Fusarium) genera were found to be more abundant in the soil sample from the HCH-dumpsite. Consistent with the phylogenetic shift, the dumpsite also exhibited a relatively higher abundance of genes coding for chemotaxis/motility, chloroaromatic and HCH degradation (lin genes). Reassembly of a draft pangenome of Chromohalobacter salaxigenes sp. (∼8X coverage) and 3 plasmids (pISP3, pISP4 and pLB1; 13X coverage) containing lin genes/clusters also provides an evidence for the horizontal transfer of HCH catabolism genes.     

Microbial Communities in the Upper Respiratory Tract of Patients with Asthma and Chronic Obstructive Pulmonary Disease

Respiratory infections are well-known triggers of chronic respiratory diseases. Recently, culture-independent tools have indicated that lower airway microbiota may contribute to pathophysiologic processes associated with asthma and chronic obstructive pulmonary disease (COPD). However, the relationship between upper airway microbiota and chronic respiratory diseases remains unclear. This study was undertaken to define differences of microbiota in the oropharynx of asthma and COPD patients relative to those in healthy individuals. To account for the qualitative and quantitative diversity of the 16S rRNA gene in the oropharynx, the microbiomes of 18 asthma patients, 17 COPD patients, and 12 normal individuals were assessed using a high-throughput next-generation sequencing analysis. In the 259,572 total sequence reads, α and β diversity measurements and a generalized linear model revealed that the oropharynx microbiota are diverse, but no significant differences were observed between asthma and COPD patients. Pseudomonas spp. of Proteobacteria and Lactobacillus spp. of Firmicutes were highly abundant in asthma and COPD. By contrast, Streptococcus, Veillonella, Prevotella, and Neisseria of Bacteroidetes dominated in the healthy oropharynx. These findings are consistent with previous studies conducted in the lower airways and suggest that oropharyngeal airway microbiota are important for understanding the relationships between the various parts of the respiratory tract with regard to bacterial colonization and comprehensive assessment of asthma and COPD.     

Serum 25-Hydroxyvitamin D and the Incidence of Acute Viral Respiratory Tract Infections in Healthy Adults

Background

Declining serum concentrations of 25-hydroxyvitamin D seen in the fall and winter as distance increases from the equator may be a factor in the seasonal increased prevalence of influenza and other viral infections. This study was done to determine if serum 25-hydroxyvitamin D concentrations correlated with the incidence of acute viral respiratory tract infections.

Methodology/Findings

In this prospective cohort study serial monthly concentrations of 25-hydroxyvitamin D were measured over the fall and winter 2009–2010 in 198 healthy adults, blinded to the nature of the substance being measured. The participants were evaluated for the development of any acute respiratory tract infections by investigators blinded to the 25-hydroxyvitamin D concentrations. The incidence of infection in participants with different concentrations of vitamin D was determined. One hundred ninety-five (98.5%) of the enrolled participants completed the study. Light skin pigmentation, lean body mass, and supplementation with vitamin D were found to correlate with higher concentrations of 25-hydroxyvitamin D. Concentrations of 38 ng/ml or more were associated with a significant (p<0.0001) two-fold reduction in the risk of developing acute respiratory tract infections and with a marked reduction in the percentages of days ill.

Conclusions/Significance

Maintenance of a 25-hydroxyvitamin D serum concentration of 38 ng/ml or higher should significantly reduce the incidence of acute viral respiratory tract infections and the burden of illness caused thereby, at least during the fall and winter in temperate zones. The findings of the present study provide direction for and call for future interventional studies examining the efficacy of vitamin D supplementation in reducing the incidence and severity of specific viral infections, including influenza, in the general population and in subpopulations with lower 25-hydroxyvitamin D concentrations, such as pregnant women, dark skinned individuals, and the obese.     

Polymorphism of Glutathione S-Transferase M1 and P1 in Patients with Cystic Fibrosis and Chronic Respiratory Diseases

Polymorphism of GSTM1 and GSTP1 genes was studied in patients with cystic fibrosis (CF) and chronic bronchopulmonary diseases (CBPD) living in Bashkortostan. A combination of certain GSTM1 and GSTP1 genotypes accompanied by severe mutations inCFTRgene proved to intensify a pathologic process in respiratory organs of patients with CF; a combination of the normal GSTM1 and heterozygous I/V GSTP1 genotypes is the most favorable (OR = 4.49; ² = 11.53, P < 0.002). In patients with CBPD, a combination of the GSTM1null genotype and the homozygous GSTP1 V/V genotype is the most common (5.5% versus 1.3% in control; ² = 3.01, P = 0.08). The frequency of this genotype is highest in groups of patients with recurrent bronchitis (8.1%; P = 0.07; OR = 6.75) and bronchiectatic disease (BED) (9.1%, P > 0.10, OR = 7.65). A combination of the null GSTM1 andI/V GSTP1 genotypes was found in 40.0% of patients with chronic nonobstructive bronchitis (² = 4.87; P = 0.03; OR = 4.03). Among patients with BED, a proportion of individuals with the normal GSTM1 and I/V GSTP1 genotypes was increased (36.4% versus 19.4% in control). In patients with chronic obstructive pulmonary disease (COPD), the frequencies of the GSTM1 and GSTP1 genotype combinations virtually did not differ from those in the control group suggesting that COPD severity is not related to changes in activities of glutathione S-transferases M1 and P1.     

Correction of Chloride Transport and Mislocalization of CFTR Protein by Vardenafil in the Gastrointestinal Tract of Cystic Fibrosis Mice

Although lung disease is the major cause of mortality in cystic fibrosis (CF), gastrointestinal (GI) manifestations are the first hallmarks in 15–20% of affected newborns presenting with meconium ileus, and remain major causes of morbidity throughout life. We have previously shown that cGMP-dependent phosphodiesterase type 5 (PDE5) inhibitors rescue defective CF Transmembrane conductance Regulator (CFTR)-dependent chloride transport across the mouse CF nasal mucosa. Using F508del-CF mice, we examined the transrectal potential difference 1 hour after intraperitoneal injection of the PDE5 inhibitor vardenafil or saline to assess the amiloride-sensitive sodium transport and the chloride gradient and forskolin-dependent chloride transport across the GI tract. In the same conditions, we performed immunohistostaining studies in distal colon to investigate CFTR expression and localization. F508del-CF mice displayed increased sodium transport and reduced chloride transport compared to their wild-type littermates. Vardenafil, applied at a human therapeutic dose (0.14 mg/kg) used to treat erectile dysfunction, increased chloride transport in F508del-CF mice. No effect on sodium transport was detected. In crypt colonocytes of wild-type mice, the immunofluorescence CFTR signal was mostly detected in the apical cell compartment. In F508del-CF mice, a 25% reduced signal was observed, located mostly in the subapical region. Vardenafil increased the peak of intensity of the fluorescence CFTR signal in F508del-CF mice and displaced it towards the apical cell compartment. Our findings point out the intestinal mucosa as a valuable tissue to study CFTR transport function and localization and to evaluate efficacy of therapeutic strategies in CF. From our data we conclude that vardenafil mediates potentiation of the CFTR chloride channel and corrects mislocalization of the mutant protein. The study provides compelling support for targeting the cGMP signaling pathway in CF pharmacotherapy.     

Proteomic Analysis of Nasal Epithelial Cells from Cystic Fibrosis Patients

The pathophysiology of cystic fibrosis (CF) lung disease remains incompletely understood. New explanations for the pathogenesis of CF lung disease may be discovered by studying the patterns of protein expression in cultured human nasal epithelial cells (HNEC). To that aim, we compared the level of protein expressions in primary cultures of HNEC from nasal polyps secondary to CF (CFNP, n = 4), primary nasal polyps (NP, n = 8) and control mucosa (CTRL, n = 4) using isobaric tag for relative and absolute quantification (iTRAQ) labeling coupled with liquid chromatography (LC)-MS-MS. The analysis of the data revealed 42 deregulated protein expressions in CFNP compared to NP and CTRL, suggesting that these alterations are related to CF. Overall, AmiGo analysis highlighted six major pathways important for cell functions that seem to be impaired: metabolism, G protein process, inflammation and oxidative stress response, protein folding, proteolysis and structural proteins. Among them, glucose and fatty acid metabolic pathways could be impaired in CF with nine deregulated proteins. Our proteomic study provides a reproducible set of differentially expressed proteins in airway epithelial cells from CF patients and reveals many novel deregulated proteins that could lead to further studies aiming to clarify the involvement of such proteins in CF pathophysiology.     

Pathogenesis of Fungal Infections in Cystic Fibrosis

For a long time, the microbiology of cystic fibrosis has been focussed on Pseudomonas aeruginosa and associated Gram-negative pathogens. An increasing body of evidence has been compiled demonstrating an important role for moulds and yeasts within this complex patient group. Whether or not fungi are active participants, spectators or transient passersby remain to be elucidated. However, functionally, they do appear to play a contributory role in pathogenesis, albeit we do not know if this is a direct or indirect effect. The following review examines some of the key evidence for the role of fungi in CF pathogenesis.     

Hydroxyapatite in the Pathogenesis of Cystic Fibrosis

Submandibular saliva collected from cystic fibrosis patients and control subjects was separated by centrifugation into an insoluble deposit and a clear supernatant. The resulting calcium and phosphorus analyses performed on both fractions warranted a closer investigation as a consistent Ca/P molar ratio of 1·5 was found in the deposit of the cystic fibrosis patients, while no consistent ratio >1·0 was found in the deposit of the control subjects. The expected result, that calcium and phosphorus in the deposit of cystic fibrosis patients is present as the solid phase of hydroxyapatite, was confirmed by a detailed comparison of x-ray powder diffraction patterns of an ashed sample of this deposit and a similarly treated synthetic sample of hydroxyapatite.