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Type III secretion-mediated cytotoxicity is one of the key virulence mechanisms of the opportunistic pathogen Pseudomonas aeruginosa. Prior data from several laboratories have established that metabolism is a key factor in the regulation of type III secretion gene expression in P. aeruginosa. Here we use a fluorescence-activated cell sorter (FACS)-based approach to investigate expression of type III secretion genes at a single-cell level. The data demonstrate that the metabolic state regulates the percentage of cells that are able to induce type III secretion gene expression under inducing conditions. We also present evidence that this regulation is the result of an effect of the growth conditions on the ability of P. aeruginosa to assemble a functional type III secretion apparatus. Preliminary data suggest that the metabolite that controls type III secretion gene expression is derived from acetyl-CoA and that this regulation may, in part, be mediated by changes in the intracellular concentration of cyclic-AMP. 相似文献
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MucA-mediated coordination of type III secretion and alginate synthesis in Pseudomonas aeruginosa 下载免费PDF全文
The type III secretion system (T3SS) of Pseudomonas aeruginosa is an important virulence factor. The T3SS of P. aeruginosa can be induced by a low calcium signal or upon direct contact with the host cells. The exact pathway of signal sensing and T3SS activation is not clear. By screening a transposon insertion mutant library of the PAK strain, mutation in the mucA gene was found to cause repression of T3SS expression under both type III-inducing and -noninducing conditions. Mutation in the mucA gene is known to cause alginate overproduction, resulting in a mucoid phenotype. Alginate production responds to various environmental stresses and plays a protective role for P. aeruginosa. Comparison of global gene expression of mucA mutant and wild-type PAK under T3SS-inducing conditions confirmed the down regulation of T3SS genes and up regulation of genes involved in alginate biosynthesis. Further analysis indicated that the repression of T3SS in the mucA mutant was AlgU and AlgR dependent, as double mutants mucA/algU and mucA/algR showed normal type III expression. An algR::Gm mutant showed a higher level of type III expression, while overexpression of the algR gene inhibited type III gene expression; thus, it seems that the AlgR-regulated product inhibits the expression of the T3SS genes. It is likely that P. aeruginosa has evolved tight regulatory networks to turn off the energy-expensive T3SS when striving for survival under environmental stresses. 相似文献
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Quinaud M Chabert J Faudry E Neumann E Lemaire D Pastor A Elsen S Dessen A Attree I 《The Journal of biological chemistry》2005,280(43):36293-36300
Type III secretion (T3S) systems play key roles in pathogenicity of many Gram-negative bacteria and are employed to inject toxins directly into the cytoplasm of target cells. They are composed of over 20 different proteins that associate into a basal structure that traverses both inner and outer bacterial membranes and a hollow, needle-like structure through which toxins travel. The PscF protein is the main component of the Pseudomonas aeruginosa T3S needle. Here we demonstrate that PscF, when purified on its own, is able to form needle-like fibers of 8 nm in width and >1 microm in length. In addition, we demonstrate for the first time that the T3S needle subunit requires two cytoplasmic partners, PscE and PscG, in P. aeruginosa, which trap PscF in a ternary, 1:1:1 complex, thus blocking it in a monomeric state. Knock-out mutants deficient in PscE and PscG are non-cytotoxic, lack PscF, and are unable to export PscF encoded extrachromosomally. Temperature-scanning circular dichroism measurements show that the PscE-PscF-PscG complex is thermally stable and displays a cooperative unfolding/refolding pattern. Thus, PscE and PscG prevent PscF from polymerizing prematurely in the P. aeruginosa cytoplasm and keep it in a secretion prone conformation, strategies which may be shared by other pathogens that employ the T3S system for infection. 相似文献
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Pseudomonas aeruginosa utilises its type III secretion system to kill the free-living amoeba Acanthamoeba castellanii 总被引:1,自引:0,他引:1
Abd H Wretlind B Saeed A Idsund E Hultenby K Sandström G 《The Journal of eukaryotic microbiology》2008,55(3):235-243
Pseudomonas aeruginosa is a free-living and common environmental bacterium. It is an opportunistic and nosocomial pathogen causing serious human health problems. To overcome its predators, such as macrophages and environmental phagocytes, it utilises different survival strategies, such as the formation of microcolonies and the production of toxins mediated by a type III secretion system (TTSS). The aim of this study was to examine interaction of TTSS effector proteins of P. aeruginosa PA103 with Acanthamoeba castellanii by co-cultivation, viable count, eosin staining, electron microscopy, apoptosis assay, and statistical analysis. The results showed that P. aeruginosa PA103 induced necrosis and apoptosis to kill A. castellanii by the effects of TTSS effector proteins ExoU, ExoS, ExoT, and ExoY. In comparison, Acanthamoeba cultured alone and co-cultured with P. aeruginosa PA103 lacking the known four TTSS effector proteins were not killed. The results are consistent with P. aeruginosa being a strict extracellular bacterium that needs TTSS to survive in the environment, because the TTSS effector proteins are able to kill its eukaryotic predators, such as Acanthamoeba. 相似文献
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Cross talk between type III secretion and flagellar assembly systems in Pseudomonas aeruginosa 下载免费PDF全文
Pseudomonas aeruginosa cytotoxicity is linked to a type III secretion system (T3SS) that delivers effectors into the host cell. We show here that a negative cross-control exists between T3SS and flagellar assembly. We observed that, in a strain lacking flagella, T3SS gene expression, effector secretion, and cytotoxicity were increased. Conversely, we revealed that flagellar-gene expression and motility were decreased in a strain overproducing ExsA, the T3SS master regulator. Interestingly, a nonmotile strain lacking the flagellar filament (DeltafliC) presented a hyperefficient T3SS and a nonmotile strain assembling flagella (DeltamotAB) did not. More intriguingly, a strain lacking motCD genes is a flagellated strain with a slight defect in swimming. However, in this strain, T3SS gene expression was up-regulated. These results suggest that flagellar assembly and/or mobility antagonizes the T3SS and that a negative cross talk exists between these two systems. An illustration of this is the visualization by electron microscopy of T3SS needles in a nonmotile P. aeruginosa strain, needles which otherwise are not detected. The molecular basis of the cross talk is complex and remains to be elucidated, but proteins like MotCD might have a crucial role in signaling between the two processes. In addition, we found that the GacA response regulator negatively affects the T3SS. In a gacA mutant, the T3SS effector ExoS is hypersecreted. Strikingly, GacA was previously reported as a positive regulator for motility. Globally, our data document the idea that some virulence factors are coordinately but inversely regulated, depending on the bacterial colonization phase and infection types. 相似文献
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Moscoso JA Mikkelsen H Heeb S Williams P Filloux A 《Environmental microbiology》2011,13(12):3128-3138
Acute bacterial infections are associated with motility and cytotoxicity via the type III secretion system (T3SS), while chronic infections are linked to biofilm formation and reduced virulence. In Pseudomonas aeruginosa, the transition between motility and sessility involves regulatory networks including the RetS/GacS sensors, as well as the second messenger c-di-GMP. The RetS/GacS signalling cascade converges on small RNAs, RsmY and RsmZ, which control a range of functions via RsmA. A retS mutation induces biofilm formation, and high levels of c-di-GMP produce a similar response. In this study, we connect RetS and c-di-GMP pathways by showing that the retS mutant displays high levels of c-di-GMP. Furthermore, a retS mutation leads to repression of the T3SS, but also upregulates the type VI secretion system (T6SS), which is associated with chronic infections. Strikingly, production of the T3SS and T6SS can be switched by artificially modulating c-di-GMP levels. We show that the diguanylate cyclase WspR is specifically involved in the T3SS/T6SS switch and that RsmY and RsmZ are required for the c-di-GMP-dependent response. These results provide a firm link between the RetS/GacS and the c-di-GMP pathways, which coordinate bacterial lifestyles, as well as secretion systems that determine the infection strategy of P. aeruginosa. 相似文献
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Pseudomonas aeruginosa, a Gram-negative opportunistic pathogen, translocates exoenzymes (Exo) directly into the eukaryotic cell cytoplasm. This is accomplished by a type III secretion/translocation machinery. Here, we show that the P. aeruginosa type III secretory needle structure is composed essentially of PscF, a protein required for secretion and P. aeruginosa cytotoxicity. Partially purified needles, detached from the bacterial surface, are 60-80 nm in length and 7 nm in width, resembling needles from Yersinia spp.. YscF of Yersinia enterocolitica was able to functionally complement the pscF deletion, but required 11 P. aeruginosa-specific amino acids at the N-terminus for its function. 相似文献
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The type III secretion system (T3SS) is a specialized apparatus evolved by Gram-negative bacteria to deliver effector proteins into host cells, thus facilitating the establishment of an infection. Effector translocation across the target cell plasma membrane is believed to occur via pores formed by at least two secreted translocator proteins, the functions of which are dependent upon customized class II T3SS chaperones. Recently, three internal tetratricopeptide repeats (TPRs) were identified in this class of chaperones. Here, defined mutagenesis of the class II chaperone PcrH of Pseudomonas aeruginosa revealed these TPRs to be essential for chaperone activity towards the translocator proteins PopB and PopD and subsequently for the translocation of exoenzymes into host cells. 相似文献
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Quorum sensing negatively controls type III secretion regulon expression in Pseudomonas aeruginosa PAO1 下载免费PDF全文
Bleves S Soscia C Nogueira-Orlandi P Lazdunski A Filloux A 《Journal of bacteriology》2005,187(11):3898-3902
A systematic analysis of the type III secretion (T3S) genes of Pseudomonas aeruginosa strain PAO1 revealed that they are under quorum-sensing control. This observation was supported by the down-regulation of the T3S regulon in the presence of RhlR-C4HSL and the corresponding advanced secretion of ExoS in a rhlI mutant. 相似文献
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铜绿假单胞菌是临床上重要的条件致病菌,具有多种毒力因子且极易产生耐药性。Ⅲ型分泌系统(Type Ⅲ secretion system,T3SS)是铜绿假单胞菌中重要的毒性因子分泌系统,该菌通过Ⅲ型分泌系统将多种毒力因子注入到真核宿主细胞内并逃逸宿主细胞免疫系统的清除,引起宿主细胞相应的病理变化。对Ⅲ型分泌系统的研究,不仅有助于明确铜绿假单胞菌的致病机理,更可为临床治疗和药物研发提供理论基础。本文主要对铜绿假单胞菌中Ⅲ型分泌系统的结构、功能、调控机制以及针对性治疗策略等方面的研究进行了综述。 相似文献
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Derouazi M Toussaint B Quénée L Epaulard O Guillaume M Marlu R Polack B 《Applied and environmental microbiology》2008,74(11):3601-3604
The Escherichia coli system is the system of choice for recombinant protein production because it is possible to obtain a high protein yield in inexpensive media. The accumulation of protein in an insoluble form in inclusion bodies remains a major disadvantage. Use of the Pseudomonas aeruginosa type III secretion system can avoid this problem, allowing the production of soluble secreted proteins. 相似文献
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摘要:【目的】研究铜绿假单胞菌中群体感应系统(Quorum sensing, QS)与III型分泌系统(Type III secretion system, T3SS)的关系。【方法】通过基因敲除的方法破坏铜绿假单胞菌QS系统相关基因,将T3SS相关基因exoS、exoY、exoT、exsD-pscA-L启动子-报道子luxCDABE融合体整合到野生型菌株及QS系统突变菌株的染色体组上,通过检测启动子活性,比较这些基因在不同菌株中的表达情况。【结果】研究结果表明,T3SS中的exoS与exoT在pqsR基因突变体中的表达有明显的增强,Rhl系统对这四种基因的表达具有抑制作用,而Las系统存在与否对T3SS基本没有影响。【结论】铜绿假单胞菌中的Rhl系统和奎诺酮信号(Pseudomonas Quinolone Signal, PQS)系统对T3SS相关基因的表达具有重要的调节作用。 相似文献
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Presence or absence of lipopolysaccharide O antigens affects type III secretion by Pseudomonas aeruginosa 下载免费PDF全文
Augustin DK Song Y Baek MS Sawa Y Singh G Taylor B Rubio-Mills A Flanagan JL Wiener-Kronish JP Lynch SV 《Journal of bacteriology》2007,189(6):2203-2209
Pseudomonas aeruginosa is one of the major causative agents of mortality and morbidity in hospitalized patients due to a multiplicity of virulence factors associated with both chronic and acute infections. Acute P. aeruginosa infection is primarily mediated by planktonic bacteria expressing the type III secretion system (TTSS), a surface-attached needle-like complex that injects cytotoxins directly into eukaryotic cells, causing cellular damage. Lipopolysaccharide (LPS) is the principal surface-associated virulence factor of P. aeruginosa. This molecule is known to undergo structural modification (primarily alterations in the A- and B-band O antigen) in response to changes in the mode of life (e.g., from biofilm to planktonic). Given that LPS exhibits structural plasticity, we hypothesized that the presence of LPS lacking O antigen would facilitate eukaryotic intoxication and that a correlation between the LPS O-antigen serotype and TTSS-mediated cytotoxicity would exist. Therefore, strain PAO1 (A+ B+ O-antigen serotype) and isogenic mutants with specific O-antigen defects (A+ B-, A- B+, and A- B-) were examined for TTSS expression and cytotoxicity. A strong association existed in vitro between the absence of the large, structured B-band O antigen and increased cytotoxicity of these strains. In vivo, all three LPS mutant strains demonstrated significantly increased lung injury compared to PAO1. Clinical strains lacking the B-band O antigen also demonstrated increased TTSS secretion. These results suggest the existence of a cooperative association between LPS O-antigen structure and the TTSS in both laboratory and clinical isolates of P. aeruginosa. 相似文献
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Pei‐Chung Lee Charles M. Stopford Amanda G. Svenson Arne Rietsch 《Molecular microbiology》2010,75(4):924-941
Pseudomonas aeruginosa uses a type III secretion system to inject protein effectors into a targeted host cell. Effector secretion is triggered by host cell contact. How effector secretion is prevented prior to cell contact is not well understood. In all secretion systems studied to date, the needle tip protein is required for controlling effector secretion, but the mechanism by which needle tip proteins control effector secretion is unclear. Here we present data that the P. aeruginosa needle tip protein, PcrV, controls effector secretion by assembling into a functional needle tip complex. PcrV likely does not simply obstruct the secretion channel because the pore‐forming translocator proteins can still be secreted while effector secretion is repressed. This finding suggests that PcrV controls effector secretion by affecting the conformation of the apparatus, shifting it from the default, effector secretion ‘on’ conformation, to the effector secretion ‘off’ conformation. We also present evidence that PcrG, which can bind to PcrV and is also involved in controlling effector export, is cytoplasmic and that the interaction between PcrG and PcrV is not required for effector secretion control by either protein. Taken together, these data allow us to propose a working model for control of effector secretion by PcrG and PcrV. 相似文献