A physical linkage between cystic fibrosis airway surface dehydration and
            <i>Pseudomonas aeruginosa</i>
            biofilms

Matsui, Hirotoshi; Wagner, Victoria E.; Hill, David B.; Schwab, Ute; Rogers, Troy D.; Button, Brian; Taylor, Russell M.; Superfine, R.; Rubinstein, Michael; Iglewski, Barbara H.; Boucher, Richard C.

doi:10.1073/pnas.0606428103

Cited by 215 publications

(247 citation statements)

References 54 publications

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“…Both bacterial exoproducts and neutrophil mediators upregulate production of mucin glycoproteins, the major macromolecular constituent of mucus (Rose and Voynow, 2006), and increase mucus secretion into the airway resulting in a favorable milieu for bacterial proliferation. Due to aberrant ion and water flux in the airway, mucus plaques become viscous which favors the development of biofilms (Matsui et al, 2006) and impedes neutrophil phagocytosis of bacteria (Matsui et al, 2005). Over time, airway secretory remodeling takes place with epithelial loss and heterogeneous zones of proliferation , hypertrophy of goblet cells, and hyperplasia of submucosal gland cells (Hays and Fahy, 2006).…”

mentioning

confidence: 99%

Proteases and cystic fibrosis

Voynow

Fischer

Zheng

2008

The International Journal of Biochemistry & Cell Biology

172

159

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Cystic fibrosis is the most common, inherited fatal disease in Caucasians. The major cause of morbidity and mortality is chronic lung disease due to infection and inflammation in the airways leading to bronchiectasis and respiratory failure. The signature pathologic features of CF lung disease including abnormal mucus obstructing airways, chronic infection with S. aureus, P. aeruginosa and other gram negative bacteria, and a robust neutrophil-dominant airway inflammation, are exacerbated by unopposed proteases present at high concentrations in the ASL. There is strong evidence that proteases, particularly neutrophil elastase, contribute to the pathology of CF by impairing mucociliary clearance, interfering with innate immune functions, and perpetuating neutrophilic inflammation. The mechanisms employed by proteases to impact airway function in CF will be reviewed.

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mentioning

confidence: 99%

Proteases and cystic fibrosis

Voynow

Fischer

Zheng

2008

The International Journal of Biochemistry & Cell Biology

172

159

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“…In CF patients, mutation(s) in the cystic fibrosis transmembrane conductance regulator (CFTR) results in thickened mucus formation in the respiratory airway and leads to reduced oxygen availability deep within the lungs (AlvarezOrtega & Harwood, 2007;Boucher, 2004;Matsui et al, 2006;Worlitzsch et al, 2002;Yoon et al, 2002). Long-term persistence of P. aeruginosa in the CF lung is aided by its ability to reside in the dense hyper-mucoid lumen as hypoxic biofilm-like masses, leading to chronic infections refractory to the host immune response and antibiotic treatment (AlvarezOrtega & Harwood, 2007;Matsui et al, 2006;Stewart & Franklin, 2008;Worlitzsch et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Low oxygen induces the type III secretion system in Pseudomonas aeruginosa via modulation of the small RNAs rsmZ and rsmY

et al. 2011

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A steep oxygen gradient within the mucus of the cystic fibrosis (CF) lung combined with the biofilm mode of bacterial growth forces respiratory pathogens to adapt to varying oxygen availability. This study presents the novel finding that the Pseudomonas aeruginosa response to limiting oxygen stress includes induction of its type III secretion system (T3SS), which subsequently contributes towards host cell cytotoxicity. In P. aeruginosa, the global anaerobic response regulator Anr perceives low oxygen and subsequently triggers gene expression of a range of target genes, including the response regulator narL. Here we demonstrate that microaerobic induction of the T3SS is dependent on Anr, and that this is mediated through direct NarL transcriptional repression of the sRNAs rsmY and rsmZ, allowing free RsmA protein to positively regulate the T3SS. This study reveals a novel interplay between the Anr–NarL and RsmAYZ regulatory circuits, and introduces RsmA as an important regulator during P. aeruginosa adaptation to a low-oxygen environment.

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“…In addition to forming a permeability barrier, tethered mucins in the PCL generate an osmotic pressure to regulate PCL hydration (52). The osmotic potential exerted by CF mucus (.8% solids), but not healthy mucus (;2% solids), was demonstrated to be sufficient to dehydrate the PCL and collapse cilia (52), and to restrict mobility of bacteria and foster formation of bacterial biofilm precursor macrocolonies (53). Restoration of CFTR expression in CF primary epithelial cells by viral transduction significantly increases ASL depth, ciliary beat frequency, and mucus transport, supporting the idea that loss of CFTR function mediates ASL dehydration (54).…”

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confidence: 99%

Inhibitors of pendrin anion exchange identified in a small molecule screen increase airway surface liquid volume in cystic fibrosis

Haggie

Phuan²,

Tan³

et al. 2016

FASEB j.

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Pendrin (SLC26A4) is a Cl 2 /anion exchanger expressed in the epithelium of inflamed airways where it is thought to facilitate Cl 2 absorption and HCO 3 2 secretion. Studies using pendrin knockout mice and airway epithelial cells from hearing-impaired subjects with pendrin loss of function suggest involvement of pendrin in inflammatory lung diseases, including cystic fibrosis (CF), perhaps by regulation of airway surface liquid (ASL) volume. Here we identified small-molecule pendrin inhibitors and demonstrated their efficacy in increasing ASL volume. A cell-based, functional high-throughput screen of ∼36,000 synthetic small molecules produced 3 chemical classes of inhibitors of human pendrin. After structure-activity studies, tetrahydropyrazolopyridine and pyrazolothiophenesulfonamide compounds reversibly inhibited pendrin-facilitated Cl 2 exchange with SCN 2 , I 2 , NO 3 2 , and HCO 3 2 with drug concentration causing 50% inhibition down to ∼2.5 mM. In well-differentiated primary cultures of human airway epithelial cells from non-CF and CF subjects, treatment with IL-13, which causes inflammation with strong pendrin up-regulation, strongly increased Cl 2 /HCO 3 2 exchange and the increase was blocked by pendrin inhibition. Pendrin inhibition significantly increased ASL depth (by ∼8 mm) in IL-13-treated non-CF and CF cells but not in untreated cells. These studies implicate the involvement of pendrin-facilitated Cl 2 / HCO 3 2 in the regulation of ASL volume and suggest the utility of pendrin inhibitors in inflammatory lung diseases, including CF

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A physical linkage between cystic fibrosis airway surface dehydration and Pseudomonas aeruginosa biofilms

Cited by 215 publications

References 54 publications

Proteases and cystic fibrosis

Proteases and cystic fibrosis

Low oxygen induces the type III secretion system in Pseudomonas aeruginosa via modulation of the small RNAs rsmZ and rsmY

Inhibitors of pendrin anion exchange identified in a small molecule screen increase airway surface liquid volume in cystic fibrosis

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