UMLS:C0231530 - FACTA Search

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Query: UMLS:C0231530 (twitching)
2,043 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mucoid strains of Pseudomonas aeruginosa isolated from the lungs of cystic fibrosis patients produce large amounts of the exopolysaccharide alginate. AlgR has long been considered a key regulator of alginate production, but its cognate sensor has not been identified. Here we show that AlgR is required for twitching motility, which is a form of bacterial surface translocation mediated by type 4 fimbriae. Adjacent to algR we have identified a sensor gene (fimS), which is also required for twitching motility. However, FimS does not appear to be required for alginate production in mucoid strains. FimS and AlgR are representative of a new subclass of two-component transmitter-receiver regulatory systems. The alternative sigma factor AlgU also affects both alginate production and twitching motility. Therefore, these two virulence determinants appear to be closely associated and coordinately regulated.
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PMID:The alginate regulator AlgR and an associated sensor FimS are required for twitching motility in Pseudomonas aeruginosa. 879 Apr 18

Type-4 fimbriae (or pili) are filaments found at the poles of a wide range of bacterial pathogens, including Neisseria gonorrhoeae, Moraxella bovis, Dichelobacter nodosus and Pseudomonas aeruginosa. They are composed of a small subunit which is highly conserved among different species and appear to mediate adhesion and translocation across epithelial surfaces via a phenomenon termed "twitching motility'. These fimbriae are key host colonisation factors and important protective antigens. We have analysed the genetics and biosynthesis of type-4 fimbriae in P. aeruginosa, which is an opportunistic pathogen of compromised individuals, including those suffering cystic fibrosis, AIDS or burns. A library of P. aeruginosa transposon mutants was constructed which exhibited loss of twitching motility, as determined by altered colony morphology. Analysis of these mutants, and of similar collections by other groups, have revealed that there are at least 22 genes involved in type-4 fimbrial assembly and function. A large number (pilA, B, C, D, E, M, N, O, P, Q, T, U, V and Z) appear to be involved in the biogenesis of the fimbriae and to represent a subset of a supersystem involved in the assembly of surface-associated protein complexes. Homologs of at least some of these genes have subsequently been identified in other type-4 fimbriate bacteria. In P. aeruginosa, the system is also regulated via two signal transduction pathways-a classic sensor-regulator system (encoded by pilS, pilR and rpoN) which controls transcription of the fimbrial subunit, presumably in response to host cues, and a chemotactic system (encoded by pilG, H, I, J, K and L) which may be involved in the directional or rate control of twitching motility in response to local environmental variables.
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PMID:The molecular genetics of type-4 fimbriae in Pseudomonas aeruginosa--a review. 895 41

The sigma factor RpoS (sigmaS) has been described as a general stress response regulator that controls the expression of genes which confer increased resistance to various stresses in some gram-negative bacteria. To elucidate the role of RpoS in Pseudomonas aeruginosa physiology and pathogenesis, we constructed rpoS mutants in several strains of P. aeruginosa, including PAO1. The PAO1 rpoS mutant was subjected to various environmental stresses, and we compared the resistance phenotype of the mutant to that of the parent. The PAO1 rpoS mutant was slightly more sensitive to carbon starvation than the wild-type strain, but this phenotype was obvious only when the cells were grown in a medium supplemented with glucose as the sole carbon source. In addition, the PAO1 rpoS mutant was hypersensitive to heat shock at 50 degrees C, increased osmolarity, and prolonged exposure to high concentrations of H2O2. In accordance with the hypersensitivity to H2O2, catalase production was 60% lower in the rpoS mutant than in the parent strain. We also assessed the role of RpoS in the production of several exoproducts known to be important for virulence of P. aeruginosa. The rpoS mutant produced 50% less exotoxin A, but it produced only slightly smaller amounts of elastase and LasA protease than the parent strain. The levels of phospholipase C and casein-degrading proteases were unaffected by a mutation in rpoS in PAO1. The rpoS mutation resulted in the increased production of the phenazine antibiotic pyocyanin and the siderophore pyoverdine. This increased pyocyanin production may be responsible for the enhanced virulence of the PAO1 rpoS mutant that was observed in a rat chronic-lung-infection model. In addition, the rpoS mutant displayed an altered twitching-motility phenotype, suggesting that the colonization factors, type IV fimbriae, were affected. Finally, in an alginate-overproducing cystic fibrosis (CF) isolate, FRD1, the rpoS101::aacCI mutation almost completely abolished the production of alginate when the bacterium was grown in a liquid medium. On a solid medium, the FRD1 rpoS mutant produced approximately 70% less alginate than did the wild-type strain. Thus, our data indicate that although some of the functions of RpoS in P. aeruginosa physiology are similar to RpoS functions in other gram-negative bacteria, it also has some functions unique to this bacterium.
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PMID:Effect of rpoS mutation on the stress response and expression of virulence factors in Pseudomonas aeruginosa. 1038 54

Pseudomonas aeruginosa strains that cause chronic pulmonary infections in cystic fibrosis patients typically undergo mucoid conversion. The mucoid phenotype indicates alginate overproduction and is often due to defects in MucA, an antisigma factor that controls the activity of sigma-22 (AlgT [also called AlgU]), which is required for the activation of genes for alginate biosynthesis. In this study we hypothesized that mucoid conversion may be part of a larger response that activates genes other than those for alginate synthesis. To address this, a two-dimensional (2-D) gel analysis was employed to compare total proteins in strain PAO1 to those of its mucA22 derivative, PDO300, in order to identify protein levels enhanced by mucoid conversion. Six proteins that were clearly more abundant in the mucoid strain were observed. The amino termini of such proteins were determined and used to identify the gene products in the genomic database. Proteins involved in alginate biosynthesis were expected among these, and two (AlgA and AlgD) were identified. This result verified that the 2-D gel approach could identify gene products under sigma-22 control and upregulated by mucA mutation. Two other protein spots were also clearly upregulated in the mucA22 background, and these were identified as porin F (an outer membrane protein) and a homologue of DsbA (a disulfide bond isomerase). Single-copy gene fusions were constructed to test whether these proteins were enhanced in the mucoid strain due to increased transcription. The oprF-lacZ fusion showed little difference in levels of expression in the two strains. However, the dsbA-lacZ fusion showed two- to threefold higher expression in PDO300 than in PAO1, suggesting that its promoter was upregulated by the deregulation of sigma-22 activity. A dsbA-null mutant was constructed in PAO1 and shown to have defects predicted for a cell with reduced disulfide bond isomerase activity, namely, reduction in periplasmic alkaline phosphatase activity, increased sensitivity to dithiothreitol, reduced type IV pilin-mediated twitching motility, and reduced accumulation of extracellular proteases, including elastase. Although efficient secretion of elastase in the dsbA mutant was still demonstrable, the elastase produced appeared to be unstable, possibly as a result of mispaired disulfide bonds. Disruption of dsbA in the mucoid PDO300 background did not affect alginate production. Thus, even though dsbA is coregulated with mucoid conversion, it was not required for alginate production. This suggests that mucA mutation, which deregulates sigma-22, results in a global response that includes other factors in addition to increasing the production of alginate.
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PMID:Proteome analysis of the effect of mucoid conversion on global protein expression in Pseudomonas aeruginosa strain PAO1 shows induction of the disulfide bond isomerase, dsbA. 1109 61

Chronic Pseudomonas aeruginosa lung infection is the major cause of morbidity and mortality in cystic fibrosis (CF) patients. One P. aeruginosa virulence factor unique to CF isolates is overproduction of alginate, phenotypically termed mucoidy. Mucoidy is the result of increased transcription from the algD gene and is activated by the transcriptional regulator AlgR. Mutations in algR result in a nonmucoid phenotype and loss of twitching motility. Additionally, AlgR controls transcription of algC, encoding a dual-function enzyme necessary for both lipopolysaccharide (LPS) and alginate production. Therefore, to determine the effect of algR on P. aeruginosa virulence, an algR mutant was examined for sensitivity to reactive oxygen intermediates, killing by phagocytes, systemic virulence, and the ability to maintain a murine lung infection. We found that P. aeruginosa PAO700 (algR::Gm(r)) was less lethal than PAO1, as tested in an acute septicemia infection mouse model, and was cleared more efficiently in a mouse pneumonia model. Additionally, the algR mutant (PAO700) was more sensitive to hypochlorite. However, PAO700 was more resistant to hydrogen peroxide and killed less readily in an acellular myeloperoxidase assay than PAO1. There was little difference in killing between PAO1 and PAO700 with macrophage-like J774 cells and human polymorhonuclear leukocytes. Two-dimensional gel analysis of P. aeruginosa algR mutant and wild-type protein extracts revealed 47 differentially regulated proteins, suggesting that AlgR plays both a positive role and a negative role in gene expression. Together, these results imply that AlgR is necessary for virulence and regulates genes in addition to the genes associated with alginate and LPS production and pilus function.
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PMID:The transcriptional regulator AlgR is essential for Pseudomonas aeruginosa pathogenesis. 1237 85

Pseudomonas aeruginosa, an opportunistic human pathogen and ubiquitous environmental bacterium, is capable of forming specialized bacterial communities, referred to as biofilm. The results of this study demonstrate that the unique environment of the cystic fibrosis (CF) lung seems to select for a subgroup of autoaggregative and hyperpiliated P. aeruginosa small-colony variants (SCVs). These morphotypes showed increased fitness under stationary growth conditions in comparison with clonal wild-types and fast-growing revertants isolated from the SCV population in vitro. In accordance with the SCVs being hyperpiliated, they exhibited increased twitching motility and capacity for biofilm formation. In addition, the SCVs attached strongly to the pneumocytic cell line A549. The emergence of these highly adherent SCVs within the CF lung might play a key role in the pathogenesis of P. aeruginosa lung infection, where a biofilm mode of growth is thought to be responsible for persistent infection.
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PMID:Highly adherent small-colony variants of Pseudomonas aeruginosa in cystic fibrosis lung infection. 1267 67

Inspiratory muscle weakness due to lung hyperinflation and muscle wasting may occur in cystic fibrosis. We therefore measured diaphragm function and bulk in 18 stable patients with cystic fibrosis and 15 matched control subjects; the abdominal and quadriceps muscles were studied for comparison. We assessed diaphragm mass, abdominal muscle thickness, twitch transdiaphragmatic and gastric pressures, quadriceps cross-section and isokinetic strength, and lean body mass. Lean body mass, quadriceps strength, and quadriceps cross-section were lower in patients with cystic fibrosis. Twitch transdiaphragmatic pressure was 23% lower and twitch gastric pressure was 22% greater in patients with cystic fibrosis than in control subjects, but diaphragm mass and abdominal muscle thickness were similar in the two groups. For any given lean body mass and quadriceps cross-section, patients with cystic fibrosis had greater diaphragm mass and abdominal muscle thickness. Diaphragm mass had greater intersubject variability in patients with cystic fibrosis than in control subjects. We conclude that diaphragm strength is decreased but abdominal muscle strength is increased in patients with cystic fibrosis. Diaphragm and abdominal muscle bulk are not affected by the general muscle wasting, which suggests that there may be a training effect of cystic fibrosis on respiratory muscles. However, the variability of diaphragm mass indicates that this beneficial response does not occur in all patients with cystic fibrosis.
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PMID:Function and bulk of respiratory and limb muscles in patients with cystic fibrosis. 1455 57

Chronic lung infections with Pseudomonas aeruginosa biofilms are associated with refractory and fatal pneumonia in cystic fibrosis (CF). In this study, a group of genomically diverse P. aeruginosa isolates were compared with the reference strain PAO1 to assess the roles of motility, twitching, growth rate, and overproduction of a capsular polysaccharide (alginate) in biofilm formation. In an in vitro biofilm assay system, P. aeruginosa displayed strain-specific biofilm formation that was not solely dependent on these parameters. Compared with non-CF isolates, CF isolates expressed two opposing growth modes: reduced planktonic growth versus efficient biofilm formation. Planktonic cells of CF isolates showed elevated sensitivity to hydrogen peroxide, a reactive oxygen intermediate, and decreased lung colonization in an aerosol infection mouse model. Despite having identical genomic profiles, CF sequential isolates produced different amounts of biofilm. While P. aeruginosa isolates exhibited genomic diversity, the genome size of these isolates was estimated to be 0.4 to 19% (27 to 1,184 kb) larger than that of PAO1. To identify these extra genetic materials, random amplification of polymorphic DNA was coupled with PAO1-subtractive hybridization. Three loci were found within the genomes of two CF isolates encoding one novel homolog involved in retaining a Shigella virulence plasmid (mvpTA) and two divergent genes that function in removing negative supercoiling (topA) and biosynthesis of pyoverdine (PA2402). Together, P. aeruginosa biodiversity could provide one cause for the variation of morbidity and mortality in CF. P. aeruginosa may possess undefined biofilm adhesins that are important to the development of an antibiofilm therapeutic target.
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PMID:Cross-sectional analysis of clinical and environmental isolates of Pseudomonas aeruginosa: biofilm formation, virulence, and genome diversity. 1468 90

Biofilm-forming bacteria such as Staphylococcus, Haemophilus, and Pseudomonas species resist phagocytosis by host immune cells and the actions of antimicrobial agents. In susceptible individuals, such as patients with cystic fibrosis (CF) or diffuse panbronchiolitis (DPB), strains of Pseudomonas aeruginosa produce a number of virulence determinants that permit colonization and infection of the respiratory tract. P aeruginosa strains isolated from CF and DPB patients typically have a mucoid colony morphology. This is due to the overproduction of alginate, an exopolysaccharide capsule that is composed of D-mannuronic and L-guluronic acids. In addition, the P aeruginosa type IV pilus mediates cell surface translocation by a process known as twitching motility. Both alginate production and twitching motility contribute to the virulence of P aeruginosa, as does the formation of biofilms. Biofilms bind cells and organic and inorganic materials to each other, and to a variety of substrata. Their tightly formed structure reduces antimicrobial activity, promotes bacterial adhesion to lung epithelia, and prevents bacterial dehydration. Prior work has suggested that macrolides have therapeutic value in patients with DPB and CF. We hypothesized that the improved clinical status of these patients was due, in part, to macrolides inhibiting the production of P aeruginosa virulence determinants. Traditionally, macrolides have not been considered to exhibit antipseudomonal activity, as their mean inhibitory concentration (MIC) values for clinical and environmental strains of the microbe range from 50 to 550 microg/mL. In this study, we found that sub-MIC levels of clarithromycin substantially inhibited twitching motility. In addition, the incubation of biofilm-grown P aeruginosa with clarithromycin altered the structure and architecture of the biofilm. Investigating the potential nonribosomal effects of macrolides on opportunistic pathogens such as P aeruginosa and elucidating the molecular mechanisms that underlie the inhibition of twitching motility may lead to more effective treatments of pulmonary infections in patients with CF and DPB.
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PMID:Effects of subinhibitory concentrations of macrolide antibiotics on Pseudomonas aeruginosa. 1487 2

Biofilm formation by Pseudomonas aeruginosa is hypothesized to follow a developmental pattern initiated by attachment to a surface followed by microcolony formation and mature biofilm development. Swimming and twitching motility are important for attachment and biofilm development in P. aeruginosa. However, it is clear that many P. aeruginosa strains lacking swimming motility exist as biofilms in the lungs of cystic fibrosis patients. Consequently, we have developed a dynamic attachment assay to identify motility-independent attachment-defective mutants. Using transposon mutagenesis, we identified 14 novel dynamic attachment-deficient (dad) mutants including four mutants specific to dynamic assay conditions (dad specific). Two of the dad-specific mutants contain insertions in genes involved in sensing and responding to external stimuli, implying a significant impact of external factors on the biofilm developmental pathway. Observations of initial attachment and long-term biofilm formation characterized our dad mutants into two distinct classes: biofilm delayed and biofilm impaired. Biofilm-delayed mutants form wild-type biofilms but are delayed at least 24 h compared with the wild type, whereas biofilm-impaired mutants never form wild-type biofilms in our assays. We propose a dynamic model for attachment and biofilm formation in P. aeruginosa including these two classes.
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PMID:Pseudomonas aeruginosa attachment and biofilm development in dynamic environments. 1530 12

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