Insights into the Oxidative Stress Response of Salmonella enterica serovar Enteritidis Revealed by the Next Generation Sequencing Approach

Li, Xiaoying; Omar, Misara; Abrahante, Juan E.; Nagaraja, K. V.; Vidović, Sinisa

doi:10.3390/antiox9090849

Cited by 12 publications

(6 citation statements)

References 45 publications

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“…This shows that Pst DC3000 is able to deploy detoxifying mechanisms to avoid the negative effects provoked by H 2 O 2 . In fact, it shares a similar tolerance to H 2 O 2 as E. coli and P. aeruginosa 46,47 , which can withstand relatively higher concentrations of this compound in comparison to other bacterial species such as Salmonella enterica 48 and P. putida 49 .…”

Section: Discussionmentioning

confidence: 99%

“…In this trend, our previous co-expression analyses on several P. syringae strains demonstrated a negative correlation between polyamine biosynthetic genes and catalases 18 . Besides, it was demonstrated that speE is downregulated in P. syringae B728A and P. aeruginosa PAO1, as well as in non-related species such as E. coli and Salmonella enterica in response to H 2 O 2 48,[56][57][58] . This observation implies the existence of a wide distributed regulatory mechanisms linking Spd synthesis reduction and catalase induction.…”

Section: Discussionmentioning

confidence: 99%

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Polyamine-mediated mechanisms contribute to oxidative stress tolerance in Pseudomonas syringae

Solmi

Rossi

Romero

et al. 2023

Sci Rep

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Bacterial phytopathogens living on the surface or within plant tissues may experience oxidative stress because of the triggered plant defense responses. Although it has been suggested that polyamines can defend bacteria from this stress, the mechanism behind this action is not entirely understood. In this study, we investigated the effects of oxidative stress on the polyamine homeostasis of the plant pathogen Pseudomonas syringae and the functions of these compounds in bacterial stress tolerance. We demonstrated that bacteria respond to H2O2 by increasing the external levels of the polyamine putrescine while maintaining the inner concentrations of this compound as well as the analogue amine spermidine. In line with this, adding exogenous putrescine to media increased bacterial tolerance to H2O2. Deletion of arginine decarboxylase (speA) and ornithine decarboxylate (speC), prevented the synthesis of putrescine and augmented susceptibility to H2O2, whereas targeting spermidine synthesis alone through deletion of spermidine synthase (speE) increased the level of extracellular putrescine and enhanced H2O2 tolerance. Further research demonstrated that the increased tolerance of the ΔspeE mutant correlated with higher expression of H2O2-degrading catalases and enhanced outer cell membrane stability. Thus, this work demonstrates previously unrecognized connections between bacterial defense mechanisms against oxidative stress and the polyamine metabolism.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Polyamine-mediated mechanisms contribute to oxidative stress tolerance in Pseudomonas syringae

Solmi

Rossi

Romero

et al. 2023

Sci Rep

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“…Typhimurium challenged with H2O2 stress shows significant induction of iron acquisition proteins (47,48). This could be as several proteins required to mitigate oxidative stress and associated DNA damage such as SodB and DNA glycosylase MutY require iron as cofactor (49)(50)(51)(52).…”

Section: Discussionmentioning

confidence: 99%

Functional characterization ofSalmonellaTyphimurium encoded YciF, a domain of unknown function (DUF892) family protein, and its role in protection during bile and oxidative stress

Singh

Penmatsa

Nandi

2023

Preprint

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YciF (STM14_2092) is a member of domain of unknown function (DUF892) family. It is an uncharacterized protein, involved in stress responses in Salmonella Typhimurium. In this study, we investigated the significance of YciF and its DUF892 domain during bile and oxidative stress responses of S. Typhimurium. Purified wild type YciF forms higher order oligomers, binds to iron and displays ferroxidase activity. Studies on the site-specific mutants revealed that the ferroxidase activity of YciF is dependent on the two metal binding sites present within the DUF892 domain. Transcriptional analysis displayed that the delta cspE strain, which has compromised expression of YciF, encounters iron toxicity due to dysregulation of iron homeostasis in presence of bile. Utilizing this observation, we demonstrate that the bile mediated iron toxicity in deltacspE causes lethality, primarily through the generation of reactive oxygen species (ROS). Expression of wild type YciF, but not the three mutants of the DUF892 domain, in delta cspE alleviate ROS in presence of bile. Our results establish the role of YciF as a ferroxidase that can sequester excess iron in the cellular milieu to counter ROS-associated cell death. In fact, pre-treatment with an iron chelator mitigates the hypersensitivity of deltacspE to bile.

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“…Moreover, major porin, OmpC, and two additional porins, OmpN and Tsx, showed decreased abundance in the cpxR background, clearly indicating that deletion of the cpxR gene imposes a stressful condition for the mutant cell. It is well documented that the decrease of porin abundance in a prokaryotic cell is an adaptive response of these organisms to exposure to a wide spectrum of antimicrobials [23,[28][29][30][31] and reactive oxygen species (ROS) [32]. Guest et al [11] demonstrated that the Cpx response affects the respiratory complexes NADH dehydrogenase I and cytochrome bo 3 .…”

Section: Discussionmentioning

confidence: 99%

“…Our data indicated that the ∆cpxR mutant is probably exposed to endogenous ROS. Not only a wide spectrum of DNA repair proteins, both envelope, and cytosol chaperones and proteases were induced, but also powerful antioxidants, including thioredoxin, glutaredoxin 1, glutaredoxin 3, and disulphide reductase, hallmarks of the oxidative stress response [32][33][34][35], showed increased abundance in the cpxR background. Taken together, decreased abundance of porins and increased abundance of antioxidants, DNA repair systems, envelope, and cytosol chaperones, and proteases, provide multiple pieces of evidence that the ∆cpxR mutant is under stress and probably exposed to an increased level of endogenous ROS.…”

Section: Discussionmentioning

confidence: 99%

Novel Insight into the Effects of CpxR on Salmonella enteritidis Cells during the Chlorhexidine Treatment and Non-Stressful Growing Conditions

Omar

Nagaraja

et al. 2021

IJMS

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The development and spread of antibiotics and biocides resistance is a significant global challenge. To find a solution for this emerging problem, the discovery of novel bacterial cellular targets and the critical pathways associated with antimicrobial resistance is needed. In the present study, we investigated the role of the two most critical envelope stress response regulators, RpoE and CpxR, on the physiology and susceptibility of growing Salmonella enterica serovar enteritidis cells using the polycationic antimicrobial agent, chlorhexidine (CHX). It was shown that deletion of the cpxR gene significantly increased the susceptibility of this organism, whereas deletion of the rpoE gene had no effect on the pathogen’s susceptibility to this antiseptic. It has been shown that a lack of the CpxR regulator induces multifaceted stress responses not only in the envelope but also in the cytosol, further affecting the key biomolecules, including DNA, RNA, and proteins. We showed that alterations in cellular trafficking and most of the stress responses are associated with a dysfunctional CpxR regulator during exponential growth phase, indicating that these physiological changes are intrinsically associated with the lack of the CpxR regulator. In contrast, induction of type II toxin-antitoxin systems and decrease of abundances of enzymes and proteins associated with the recycling of muropeptides and resistance to polymixin and cationic antimicrobial peptides were specific responses of the ∆cpxR mutant to the CHX treatment. Overall, our study provides insight into the effects of CpxR on the physiology of S. Enteritidis cells during the exponential growth phase and CHX treatment, which may point to potential cellular targets for the development of an effective antimicrobial agent.

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Insights into the Oxidative Stress Response of Salmonella enterica serovar Enteritidis Revealed by the Next Generation Sequencing Approach

Cited by 12 publications

References 45 publications

Polyamine-mediated mechanisms contribute to oxidative stress tolerance in Pseudomonas syringae

Polyamine-mediated mechanisms contribute to oxidative stress tolerance in Pseudomonas syringae

Functional characterization ofSalmonellaTyphimurium encoded YciF, a domain of unknown function (DUF892) family protein, and its role in protection during bile and oxidative stress

Novel Insight into the Effects of CpxR on Salmonella enteritidis Cells during the Chlorhexidine Treatment and Non-Stressful Growing Conditions

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