BACKGROUND-A new approach in the treatment of cystic fibrosis involves improving the function of mutant cystic fibrosis transmembrane conductance regulator (CFTR). VX-770, a CFTR potentiator, has been shown to increase the activity of wild-type and defective cell-surface CFTR in vitro.
Background
VX-809, a cystic fibrosis transmembrane conductance regulator (CFTR) modulator, has been shown to increase the cell surface density of functional F508del-CFTR in vitro.
Methods
A randomised, double-blind, placebo-controlled study evaluated the safety, tolerability and pharmacodynamics of VX-809 in adult patients with cystic fibrosis (n=89) who were homozygous for the F508del-CFTR mutation. Subjects were randomised to one of four VX-809 28 day dose groups (25, 50, 100 and 200 mg) or matching placebo.
Results
The type and incidence of adverse events were similar among VX-809- and placebo-treated subjects. Respiratory events were the most commonly reported and led to discontinuation by one subject in each active treatment arm. Pharmacokinetic data supported a once-daily oral dosing regimen. Pharmacodynamic data suggested that VX-809 improved CFTR function in at least one organ (sweat gland). VX-809 reduced elevated sweat chloride values in a dose-dependent manner (p=0.0013) that was statistically significant in the 100 and 200 mg dose groups. There was no statistically significant improvement in CFTR function in the nasal epithelium as measured by nasal potential difference, nor were there statistically significant changes in lung function or patient-reported outcomes. No maturation of immature F508del-CFTR was detected in the subgroup that provided rectal biopsy specimens.
Conclusions
In this study, VX-809 had a similar adverse event profile to placebo for 28 days in F508del-CFTR homozygous patients, and demonstrated biological activity with positive impact on CFTR function in the sweat gland. Additional data are needed to determine how improvements detected in CFTR function secondary to VX-809 in the sweat gland relate to those measurable in the respiratory tract and to long-term measures of clinical benefit. Clinical trial number NCT00865904
Summary
Bacterial lineages that chronically infect cystic fibrosis (CF) patients genetically diversify during infection. However, the mechanisms driving diversification are unknown. By dissecting 10 CF lung pairs and studying ~12,000 regional isolates, we were able to investigate whether clonally-related Pseudomonas aeruginosa inhabiting different lung regions evolve independently and differ functionally. Phylogenetic analysis of genome sequences showed that regional isolation of P. aeruginosa drives divergent evolution. We investigated the consequences of regional evolution by studying isolates from mildly and severely-diseased lung regions and found evolved differences in bacterial nutritional requirements, host-defense and antibiotic resistance, and virulence due to hyperactivity of type 3 secretion systems. These findings suggest that bacterial intermixing is limited in CF lungs, and that regional selective pressures may markedly differ. The findings also may explain how specialized bacterial variants arise during infection, and raise the possibility that pathogen diversification occurs in other chronic infections characterized by spatially heterogeneous conditions.
Recent work using culture-independent methods suggests that the lungs of cystic fibrosis (CF) patients harbor a vast array of bacteria not conventionally implicated in CF lung disease. However, sampling lung secretions in living subjects requires that expectorated specimens or collection devices pass through the oropharynx. Thus, contamination could confound results. Here, we compared culture-independent analyses of throat and sputum specimens to samples directly obtained from the lungs at the time of transplantation. We found that CF lungs with advanced disease contained relatively homogenous populations of typical CF pathogens. In contrast, upper-airway specimens from the same subjects contained higher levels of microbial diversity and organisms not typically considered CF pathogens. Furthermore, sputum exhibited day-to-day variation in the abundance of nontypical organisms, even in the absence of clinical changes. These findings suggest that oropharyngeal contamination could limit the accuracy of DNA-based measurements on upper-airway specimens. This work highlights the importance of sampling procedures for microbiome studies and suggests that methods that account for contamination are needed when DNA-based methods are used on clinical specimens.
The lack of new antibiotics is among the most critical challenges facing medicine. The problem is particularly acute for Gram-negative bacteria. A novel antibiotic strategy is to target bacterial nutrition and metabolism. The metal gallium can disrupt bacterial iron metabolism as gallium can be taken up by bacteria, and replace iron. Here we performed pre-clinical work and a phase 1 human trial to investigate the antibiotic activity of gallium in people with cystic fibrosis (CF) and chronic Pseudomonas aeruginosa airway infections. We found that CF sputum was iron-limited, and that low micromolar concentrations of gallium inhibited P. aeruginosa growth in CF sputum. Ex vivo experiments indicated that gallium inhibited key iron-dependent enzymes, and increased bacterial sensitivity to oxidants. We also found that gallium resistance developed at low rates, its activity was synergistic with some antibiotics, and it did not affect P. aeruginosa killing by human macrophages. Finally, we tested parenteral gallium in murine lung infections, and in CF patients with chronic P. aeruginosa lung infections and found indications of safety and efficacy. These data represent a small step toward targeting iron metabolism, or other nutritional vulnerabilities of bacteria, to treat human infections.
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