Project description:Transcriptional and mutational profiling of an aminoglycoside resistant Pseudomonas aeruginosa small colony variant

Project description:Pseudomonas aeruginosa is known to tolerate antibiotic therapy during infection. This prevents clearance of infection and negatively impacts patient outcomes. Here, we report the transcriptome sequence of antibiotic-treated and untreated P. aeruginosa cultures and the differential gene expression observed when treated cells are compared to untreated cells.

Project description:Pseudomonas aeruginosa is a gram negative, opportunistic pathogen, which is the major cause of corneal infections in India and worldwide. Being categorised in the critical group of antibiotic resistant species, it has prompted significance rise in research to develop alternative therapeutics. One such alternative to combat bacterial infections is antimicrobial peptides (AMPs). This study aims to investigate the role of S100A12, a host defence peptide against PAO1. It was also seen to inhibit the bacterial growth of PAO1 in vitro as seen from the colony forming units. Our study sheds light on how S100A12 impacts Pseudomonas and that it might have the potential to be used as therapeutic intervention in addition to antibiotics in future.

Project description:An antivirulence approach targets bacterial virulence rather than cell viability in the antibiotic approach that can readily lead to drug resistance. Opportunistic human pathogen Pseudomonas aeruginosa produces a variety of virulence factors, and biofilm cells of this bacterium are much more resistant to antibiotics than planktonic cells. To identify novel inorganic antivirulence compounds, the dual screenings of thirty-six metal ions were performed to identify that zinc ions and ZnO nanoparticle inhibited the pyocyanin production and biofilm formation in P. aeruginosa without affecting the growth of planktonic cells. Moreover, zinc ion and ZnO nanoparticle markedly reduced the production of 2-heptyl-3-hydroxy-4(1H)-quinolone and siderophore pyochelin, while increased the production of another sideropore pyoverdine and swarming motility. Further, zinc ion and ZnO nanoparticle clearly suppressed hemolytic activity in P. aeruginosa. Transcriptome analyses showed that ZnO nanoparticle induced zinc cation efflux pump czc operon, porin genes (oprD and opdT), and Pseudomonas type III repressor A ptrA, while repressed pyocyanin-related phz operon, which partially explains the phenotypic changes. Overall, ZnO nanoparticle is a potential candidate for use in an antivirulence approach against persistent P. aeruginosa infection.

Project description:ndvB is a gene expressed preferrentialy in biofilms of Pseudomonas aeruginosa and has been implicated in antibiotic resistance. This gene also has a role in signaling in some plant pathogens. A knockout ndvB strain was used to determine if it controlled any other gene expression related to antibiotic resistance We used microarrays of wildtype and ndvB knockout P. aeruginosa grown in biofilms to identify the role of ndvB in gene expression

Project description:Gene expression profiles of two Pseudomonas aeruginosa taxonomic outlier clinical isolates, CLJ1 and CLJ3 [CLJ3] Pseudomonas aeruginosa taxonomic outliers emerged recently as infectious for humans, provoking hemorrhagic pneumonia. Those bacteria lack classical type III secretion system, and utilize the pore-forming toxin for infection. Two clones CLJ1 and CLJ3 belonging to these taxonomic outliers have been isolated from the same patient at two different times during hospitalization. P. aeruginosa CLJ3 displays antibiotic resistance phenotype, while CLJ1 is more cytotoxic on epithelial and endothelial cells.

Project description:Gene expression profiles of two Pseudomonas aeruginosa taxonomic outlier clinical isolates, CLJ1 and CLJ3 [CLJ1] Pseudomonas aeruginosa taxonomic outliers emerged recently as infectious for humans, provoking hemorrhagic pneumonia. Those bacteria lack classical type III secretion system, and utilize the pore-forming toxin for infection. Two clones CLJ1 and CLJ3 belonging to these taxonomic outliers have been isolated from the same patient at two different times during hospitalization. P. aeruginosa CLJ3 displays antibiotic resistance phenotype, while CLJ1 is more cytotoxic on epithelial and endothelial cells.

Project description:In this study we have profiled a clinical tobramycin resistant P. aeruginosa strain that exhibited a small colony variant (SCV) phenotype. Both, the resistance and the colony morphology phenotypes were lost upon passaging the isolate under rich medium conditions. Transcriptional and mutational profiling revealed that the SCV harbored activating mutations in the two two-component systems AmgRS and PmrAB. Introduction of these mutations singularly into the type strain PA14 conferred tobramycin and colistin resistance, respectively. However, their combined introduction had an additive effect on the tobramycin resistance phenotype. Activation of the AmgRS system slightly reduced the colony size of the PA14 wild-type, whereas the simultaneous overexpression of gacA, the response regulator of the GacSA two component system, further reduced colony size. In conclusion, we uncovered combinatorial influences of two-component systems on clinically relevant phenotypes, such as resistance and the expression of the SCV phenotype. Our results clearly demonstrate that combined activation of P. aeruginosa two-component systems exhibit pleiotropic effects with unforeseen consequences.

Project description:An antivirulence approach targets bacterial virulence rather than cell viability in the antibiotic approach that can readily lead to drug resistance. Opportunistic human pathogen Pseudomonas aeruginosa produces a variety of virulence factors, and biofilm cells of this bacterium are much more resistant to antibiotics than planktonic cells. To identify novel inorganic antivirulence compounds, the dual screenings of thirty-six metal ions were performed to identify that zinc ions and ZnO nanoparticle inhibited the pyocyanin production and biofilm formation in P. aeruginosa without affecting the growth of planktonic cells. Moreover, zinc ion and ZnO nanoparticle markedly reduced the production of 2-heptyl-3-hydroxy-4(1H)-quinolone and siderophore pyochelin, while increased the production of another sideropore pyoverdine and swarming motility. Further, zinc ion and ZnO nanoparticle clearly suppressed hemolytic activity in P. aeruginosa. Transcriptome analyses showed that ZnO nanoparticle induced zinc cation efflux pump czc operon, porin genes (oprD and opdT), and Pseudomonas type III repressor A ptrA, while repressed pyocyanin-related phz operon, which partially explains the phenotypic changes. Overall, ZnO nanoparticle is a potential candidate for use in an antivirulence approach against persistent P. aeruginosa infection. P. aeruginosa Genechip Genome Array (Affymetrix, P/N 900339) was used in order to study the cells after the addition of ZnO nanoparticles. DNA microarray analysis with one biological replicate was performed with an Affymetrix system. P. aeruginosa was inoculated in 25 ml of LB medium in 250 ml shaker flasks with overnight cultures (1 : 100 dilution). Cells were cultured for 5 h with shaking at 250 rpm with and without ZnO nanoparticles (1 mM). Before sample collection, RNase inhibitor (RNAlater, Ambion, TX, USA) was added, and the cells were immediately chilled with dry ice and 95% ethanol (to prevent RNA degradation) for 30 s before centrifugation at 16,000 g for 2 min. The cell pellets were immediately frozen with dry ice and stored at –80°C. Total RNA was isolated using a Qiagen RNeasy mini Kit (Valencia, CA, USA).

Project description:Biofilm formation by Pseudomonas aeruginosa relies on specific changes in gene expression. Some of these genes, for instance, control antibiotic resistance. We used microarrays to detail the global programme of gene expression underlying biofilm formation and identified distinct classes of up-regulated genes during this process. Pseudomonas aeruginosa PAO1 cells were grown as planktonic cells in LB broth for 4 hours (PC4) or 24 hours (PC24) and sessile cels for 24 hours.