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Identification of Transcription Regulators of the AlgZ/R Two-Components Regulatory System in Pseudomonas aeruginosaYeboah, Kwasi 01 May 2021 (has links)
Pseudomonas aeruginosa is an opportunistic pathogen that express a plethora of virulence components controlled through two-component regulatory systems that allow for sensing and responding to environmental stimuli. This study was aimed at identifying transcription regulators of algZ that encodes the histidine sensor kinase (AlgZ) of the AlgZR two-component regulatory system. To understand how the algZ gene is transcriptionally controlled, transposon mutagenesis was used to create a mutant library with varying algZ expression based on their b-Galactosidase activity. The gene PA3327 was identified as a potential regulator of algZ expression using arbitrary PCR. This gene encodes a probable non-ribosomal peptide synthetase responsible for the biosynthesis of secondary metabolites such as antibiotics. Further experiments are required to understand how PA3327 transcriptionally regulates algZ expression and its physiological role in the organism. Because the AlgZ/R system regulates virulence, it is possible to attenuate virulence by targeting the expression of algZ gene.
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The AlgZ/R Two-Component System Is Responsible for Attenuation of Virulence in Pseudomonas aeruginosaWilliams, Danielle A 01 December 2017 (has links) (PDF)
Pseudomonas aeruginosa is an important opportunistic pathogen. Many P. aeruginosa virulence factors are regulated by the AlgZ/R two component system. AlgZ is the sensor histidine kinase which phosphorylates AlgR, the response regulator. AlgR activates transcription of different gene targets based upon its phosphorylation state. The genes that encode AlgZ and AlgR are transcribed in an operon. While regulation of algR expression has been well studied, regulation of algZ expression has not. Using a pilW mutant in concert with algZTF-lacZ transcriptional fusion, we conducted a transposon mutagenesis to identify algZ regulators. We identified an unknown autoregulatory loop. The type IV pilus minor pilins prevent the phosphorylation of AlgR by AlgZ . This inhibition of the AlgZ/R system subsequently down-regulates both the expression of the fimU operon and the algZ/R operon. Because AlgR regulates virulence, it is possible that virulence can also be reduced by targeting activation of the AlgZ/R system.
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Identification of AlgZ Regulator, PA2771, and Effects on Motility and Virulence in P. aeruginosahughes, abigail, Pritchett, Chris, Dr. 04 April 2018 (has links)
Pseudomonas aeruginosa is an important nosocomial infection that has the potential to infect almost every tissue of the human body though it is mainly opportunistic, due to the organism’s intrinsic antibiotic resistance is becoming increasingly difficult to treat. Two-component systems (TCS) rely on a signal sensed from the outside environment by the sensor histidine kinase to initiate phosphotransfer to the response regulator, which may then regulate virulence factors in the organism in response to a changing environment. One important two-component system in P. aeruginosa is the AlgZ/R system. AlgZ, the sensor histidine kinase, has been shown to be co-transcribed with its’ response regulator, AlgR, to affect a myriad of virulence factors, including those related to motility. Pseudomonas species is capable of four types of motility: twitching, swimming, swarming, and gliding. Twitching motility is achieved through the expression of the FimU operon and Type VI pilli, and is most useful when attaching to a solid surface in the initial step of pathogenesis: colonization. Conversely, the swimming phenotype relies on the production of a single polar flagellum upon the activation of the FleQ operon, and allows the organism to move through a fluid environment. A previously unidentified regulator of AlgZ, but not AlgR, has been identified via transposon mutagenesis screening, PA2771, which has a GGDEF domain and predicted diguanylate cyclase activity. The mechanism of PA2771’s action within P. aeruginosa has not been previously studied. The nonpolar deletion mutant was first characterized via various phenotypic assays (including biofilm, rhamnolipid, swimming, and swarming assays) and transcriptional fusions to propose a mechanism in which this predicted diguanylate cyclase (DGC) works with AlgZ to determine the switch in motility from twitching to swimming. When PA2771 is present and active in the cell, cyclic di-GMP levels should be high, leading to the production of Type VI pilli and the upregulation of the FimU operon. In the PA2771 mutant a significant decrease in the expression of the FimU operon, and an increase in the expression of the flagellar genes. Subsequent alterations in swimming and swarming phenotypes were observed, as well as the restoration of these effects via complementation studies. Overexpression of AlgZ in the 2771 mutant showed a restoration of AlgZ expression in the nonmucoid background, and the predicted DGC activity was indirectly verified via a cdrA-lacZ transcriptional fusion.
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Virulence Regulation in Pseudomonas aeruginosa via the Alginate Regulators, AlgU and AlgR, the posttranscriptional regulator, RsmA, and the Two-component System, AlgZ/RStacey, Sean 01 December 2018 (has links) (PDF)
Pseudomonas aeruginosa is a Gram-negative bacillus able to colonize a wide variety of environments. In the human host, P. aeruginosa can establish an acute infection or persist and create a chronic infection. P. aeruginosa is able to establish a niche and persist in human hosts by using a wide array of virulence factors used for: movement, killing host cells, and evading immune cells and antibiotics. Understanding virulence factors and their regulation has proved to be an important means of combating the morbidity and mortality of P. aeruginosa as well as the ever-increasing threat of drug resistance. By targeting virulence factors or their regulators with antivirulence compounds, the bacterium is rendered defenseless and more readily cleared by the immune system. In this study, we examine three different contributors to virulence factor regulation. First, we examined the role of the extracellular sigma factor AlgU and its contribution to regulating a post-transcriptional RsmA. AlgU is most commonly active in chronic infecting strains that produce copious amounts of the virulence factor, alginate. We confirmed that not only was their more RsmA in this background, but that there was a previously unidentified promoter for rsmA regulated by AlgU. In concert with this study, we followed up by studying the effects of AlgR on this unknown promoter. AlgU and AlgR are known to work together, specifically on the alginate operon, and we hypothesized based off of bioinformatics data this was the case with RsmA. Second, due to increased RsmA in this chronic infection strain, we set out to identify potential unknown virulence targets of RsmA. A previously unrevealed target, pasP, was shown to directly interact with RsmA. Third, in an acute infection model strain we identified a new regulatory loop involving the two-component system AlgZ/R. In a pilW strain deficient in the motility virulence factor type IV pili, we showed increased levels of AlgZ/R compared to wildtype, PAO1. The pilW strain produced less pyocyanin, rhamnolipid, and elastase and was attenuated in J774a.1 macrophages. Overall, these studies push the understanding of virulence factor regulation and open the door to potential therapeutic targets in treating P. aeruginosa infections.
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PA2771 Affects algZ expression and AlgZ/R Phenotypic Outputs in Pseudomonas aeruginosaHughes, Abigail 01 August 2018 (has links) (PDF)
Pseudomonas aeruginosa is a central nosocomial pathogen that can infect any tissue in the human body. A two-component system in P. aeruginosa that regulates many virulence factors is the AlgZ/R system. A previously unidentified regulator of algZ, that does not affect algR, has been identified via transposon mutagenesis, ‘PA2771’. The mechanism of regulation has not been previously studied, and novel evidence of PA2771 functioning as a diguanyalate cyclase was observed. When PA2771 is active, cyclic di-GMP levels are high, promoting the upregulation of the fimU operon and Type VI pili. In the PA2771 mutant, an upregulation in the expression of the flagellar genes and swarming phenotype was observed, and restored via complementation. PA2771's function in regulating algZ expression, is likely indirect and alters virulence gene regulation and phenotypic outputs in P. aeruginosa in the switch between twitching and swimming motility, and appears to be specific to PA2771.
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