Adaptations of Escherichia coli strains to oxidative stress are reflected in properties of their structural proteomes

Mih, Nathan; Monk, Jonathan M.; Fang, Xin; Catoiu, Edward; Heckmann, David; Yang, Laurence T.; Kim, Jaehyung

doi:10.1186/s12859-020-3505-y

Cited by 10 publications

(10 citation statements)

References 121 publications

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“…to absorb oxidative damage 41,42 . This may explain the differential upregulation in amino acid pathways, particularly when superoxide (and its by-product ROS) is removed.…”

Section: Resultsmentioning

confidence: 99%

“…Studies have suggested that bacteria have adapted the ability to assemble amino acids to counter ROS effects. For example, prioritising methionine/cysteine on the surface of cytosolic proteins can act as “sponges” to absorb oxidative damage 41, 42 . This may explain the differential upregulation in amino acid pathways, particularly when superoxide (and its by-product ROS) is removed.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Transcriptional Signatures Associated with the Survival ofEscherichia coliBiofilm During Treatment with Plasma-Activated Water

Vyas,

Hoque,

Xia

et al. 2024

Preprint

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Biofilm formation on surfaces, tools and equipment can damage their quality and lead to high repair or replacement costs. Plasma-activated water (PAW), a new technology, has shown promise in killing biofilm and non-biofilm bacteria due to its mix of reactive oxygen and nitrogen species (RONS), and in particular superoxide. However, the specific genetic mechanisms behind PAWs effectiveness, especially against biofilms, are not yet fully understood. Here, we examined the stress responses ofEscherichia colibiofilms when exposed to sub-lethal PAW treatment with and without superoxide (by adding the scavenger Tiron to remove it). A 40 percent variation in gene expression was observed for PAW treated biofilms when compared to PAW-Tiron and controls. Specifically, PAW treatment resulted in 478 upregulated genes (> 1.5 log2FC) and 186 downregulated genes (< -1.5 log2FC) compared to the control. Pathway enrichment and biological process enrichment analysis revealed significant upregulation of sulfur metabolism, ATP-binding cassette transporter genes, amino acid metabolic/biosynthesis pathways, hypochlorite response systems and oxidative phosphorylation for biofilms treated with PAW compared to control. Knockout mutants of significantly upregulated genes associated with these pathwaystrxC(4.23–fold),cysP(1.58–fold) andnuoM(1.74–fold) were compared to the wild-type (WT) for their biofilm viability and intracellular RONS accumulation. Relative to PAW-treated WT, ΔtrxCand ΔnuoMknockout mutants displayed significantly reduced biofilm viability confirming their role in PAW-mediated response. Interestingly, ΔtrxCbiofilms had the highest intracellular ROS accumulation, as revealed by DCFDA staining after PAW treatment. This study gives a detailed insight into howE. colibiofilms respond to oxidative stress induced by PAW. It highlights the significance of superoxide in PAW's bactericidal effects. Overall, our findings shed light on the specific genes and pathways that helpE. colibiofilms survive and respond to PAW treatment, offering a new understanding of plasma technology and its anti-biofilm mechanisms.

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“…to absorb oxidative damage 41,42 . This may explain the differential upregulation in amino acid pathways, particularly when superoxide (and its by-product ROS) is removed.…”

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Transcriptional Signatures Associated with the Survival ofEscherichia coliBiofilm During Treatment with Plasma-Activated Water

Vyas,

Hoque,

Xia

et al. 2024

Preprint

View full text Add to dashboard Cite

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“…In E.coli , amino acid synthesis pathway is known to be very sensitive to oxidative stress as enzymes involved in amino acid biosynthesis are susceptible to oxidative damage ( Mih et al, 2020 ). It can also represent the intensified use of these amino acids towards mediating a response to TCNP treatment.…”

Section: Resultsmentioning

confidence: 99%

Biological effects of Thymol loaded chitosan nanoparticles (TCNPs) on bacterial plant pathogen Xanthomonas campestris pv. campestris

2022

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Engineered nanomaterials can provide eco-friendly alternatives for crop disease management. Chitosan based nanoparticles has shown beneficial applications in sustainable agricultural practices and effective healthcare. Previously we demonstrated that Thymol loaded chitosan nanoparticles (TCNPs) showed bactericidal activity against Xanthomonas campestris pv campestris (Xcc), a bacterium that causes black rot disease in brassica crops. Despite the progress in assessing the antibacterial action of TCNPs, the knowledge about the molecular response of Xcc when exposed to TCNPs is yet to be explored. In the present study, we combined physiological, spectroscopic and untargeted metabolomics studies to investigate the response mechanisms in Xcc induced by TCNPs. Cell proliferation and membrane potential assays of Xcc cells exposed to sub-lethal concentration of TCNPs showed that TCNPs affects the cell proliferation rate and damages the cell membrane altering the membrane potential. FTIR spectroscopy in conjunction with untargeted metabolite profiling using mass spectrometry of TCNPs treated Xcc cells revealed alterations in amino acids, lipids, nucleotides, fatty acids and antioxidant metabolites. Mass spectroscopy analysis revealed a 10–25% increase in nucleic acid, fatty acids and antioxidant metabolites and a 20% increase in lipid metabolites while a decrease of 10–20% in amino acids and carbohydrates was seen in in TCNP treated Xcc cells. Overall, our results demonstrate that the major metabolic perturbations induced by TCNPs in Xcc are associated with membrane damage and oxidative stress, thus providing information on the mechanism of TCNPs mediated cytotoxicity. This will aid towards the development of nano- based agrochemicals as an alternative to chemical pesticides in future.

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“…23 Previous studies have shown that in the pathophysiological processes of enteric bacterial infections, various defence mechanisms of the immune system are activated that promote the appearance of ROS (phagocytosis), and consequently induce cell death of the infectious agent. 22,24,25 As a result of an evolutionary convergence of the mechanisms of elimination of bacterial infections and the survival of infectious microorganisms, these generate adaptive processes that avoid oxidative stress. It is known that KatG and AhpF proteins enable the removal of intracellular hydrogen peroxide in bacteria, thus reducing the oxidative stress, which explains why a higher concentration of these proteins is found in Enterobacterales after being exposed to blue lightassociated photodynamic therapies.…”

Section: Discussionmentioning

confidence: 99%

Photoinactivation of extensively drug-resistant gram-negative bacteria from healthcare-associated infections in Venezuela

El Hindawi,

Varela-Rangel,

Araque

2023

Int J Res Med Sci

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Background: The overwhelming advance of antimicrobial resistance demands the incorporation of new antibiotics and effective alternative treatments, and among the latter, blue light phototherapy. The objective of this study was to evaluate the photoinactivation effect of irradiation with blue light (405 nm) on extensively drug-resistance (XDR) Gram-negative bacteria from healthcare-associated infections Methods: A lighting unit was made using a 50W LED fitted to a condenser lens to create an irradiance gradient. After characterization of the lamp and standardization of microbiological procedures, bacterial inocula of 1.5×107 CFU of 40 bacterial strains: 27 Enterobacterales and 13 Pseudomonadales were subjected to irradiation for 15 minutes with blue light. The results were analysed with the SPSS program and by applying the Shapiro-Wilk and Mann-Whitney tests. Survival rates were also calculated. Results: 82.5% of the strains were photoinactivated, with inhibition thresholds between 86 and 126 J/cm2 for most of the Enterobacterales and below 86 J/cm2 in large part of the Pseudomonadales, these being the most sensitive group. 17.5% of the strains showed tolerance to irradiation thresholds up to>171 J/cm2. The survival rate decreased as the halo of inhibition of bacterial growth increased. The photoinactivating effect of blue light on the bacteria studied was a characteristic independent of the complexity of the resistance pattern that these strains presented. Conclusions: The findings obtained show that blue light has an important photoinactivating effect against XDR Gram-negative bacteria of nosocomial origin and can be considered as a future therapeutic alternative to contain the phenomenon of antimicrobial resistance.

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Adaptations of Escherichia coli strains to oxidative stress are reflected in properties of their structural proteomes

Cited by 10 publications

References 121 publications

Transcriptional Signatures Associated with the Survival ofEscherichia coliBiofilm During Treatment with Plasma-Activated Water

Transcriptional Signatures Associated with the Survival ofEscherichia coliBiofilm During Treatment with Plasma-Activated Water

Biological effects of Thymol loaded chitosan nanoparticles (TCNPs) on bacterial plant pathogen Xanthomonas campestris pv. campestris

Photoinactivation of extensively drug-resistant gram-negative bacteria from healthcare-associated infections in Venezuela

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