Expression of Mucoid Induction Factor MucE Is Dependent Upon the Alternate Sigma Factor AlgU in Pseudomonas Aeruginosa

Yin, Yeshi, Damron, F. Heath, Withers, T. Ryan, Pritchett, Christopher L., Wang, Xin, Schurr, Michael J., Yu, Hongwei D.

22 October 2013

Background: Alginate overproduction in P. aeruginosa, also referred to as mucoidy, is a poor prognostic marker for patients with cystic fibrosis (CF). We previously reported the construction of a unique mucoid strain which overexpresses a small envelope protein MucE leading to activation of the protease AlgW. AlgW then degrades the anti-sigma factor MucA thus releasing the alternative sigma factor AlgU/T(σ22)to initiate transcription of the alginate biosynthetic operon. Results: In the current study, we mapped the mucE transcriptional start site, and determined that P mucEactivity was dependent on AlgU. Additionally, the presence of triclosan and sodium dodecyl sulfate was shown to cause an increase in P mucEactivity. It was observed that mucE-mediated mucoidy in CF isolates was dependent on both the size of MucA and the genotype of algU. We also performed shotgun proteomic analysis with cell lysates from the strains PAO1, VE2 (PAO1 with constitutive expression of mucE) and VE2ΔalgU (VE2 with in-frame deletion of algU). As a result, we identified nine algU-dependent and two algU-independent proteins that were affected by overexpression of MucE. Conclusions: Our data indicates there is a positive feedback regulation between MucE and AlgU. Furthermore, it seems likely that MucE may be part of the signal transduction system that senses certain types of cell wall stress to P. aeruginosa.

alginate

AlgU/T

MucE

mucoidy

pseudomonas aeruginosa

sigma factor

Expression of Mucoid Induction Factor MucE Is Dependent Upon the Alternate Sigma Factor AlgU in Pseudomonas Aeruginosa

Yin, Yeshi, Damron, F. Heath, Withers, T. Ryan, Pritchett, Christopher L., Wang, Xin, Schurr, Michael J., Yu, Hongwei D.

22 October 2013

Background: Alginate overproduction in P. aeruginosa, also referred to as mucoidy, is a poor prognostic marker for patients with cystic fibrosis (CF). We previously reported the construction of a unique mucoid strain which overexpresses a small envelope protein MucE leading to activation of the protease AlgW. AlgW then degrades the anti-sigma factor MucA thus releasing the alternative sigma factor AlgU/T(σ22)to initiate transcription of the alginate biosynthetic operon. Results: In the current study, we mapped the mucE transcriptional start site, and determined that P mucEactivity was dependent on AlgU. Additionally, the presence of triclosan and sodium dodecyl sulfate was shown to cause an increase in P mucEactivity. It was observed that mucE-mediated mucoidy in CF isolates was dependent on both the size of MucA and the genotype of algU. We also performed shotgun proteomic analysis with cell lysates from the strains PAO1, VE2 (PAO1 with constitutive expression of mucE) and VE2ΔalgU (VE2 with in-frame deletion of algU). As a result, we identified nine algU-dependent and two algU-independent proteins that were affected by overexpression of MucE. Conclusions: Our data indicates there is a positive feedback regulation between MucE and AlgU. Furthermore, it seems likely that MucE may be part of the signal transduction system that senses certain types of cell wall stress to P. aeruginosa.

alginate

AlgU/T

MucE

mucoidy

pseudomonas aeruginosa

sigma factor

Virulence Regulation in Pseudomonas aeruginosa via the Alginate Regulators, AlgU and AlgR, the posttranscriptional regulator, RsmA, and the Two-component System, AlgZ/R

Stacey, Sean

01 December 2018

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.

Pseudomonas aeruginosa

mucoid

AlgU

AlgR

AlgZ

RsmA

Biochemistry

Medical Microbiology

Microbiology

Molecular Biology