New Roles for Two-Component System Response Regulators of Salmonella enterica Serovar Typhi during Host Cell Interactions.
Claudie Murret-Labarthe,Maud Kerhoas,Karine Dufresne +2 more
- Vol. 8, Iss: 5, pp 722
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TLDR
32 new phenotypes associated with TCS of S. Typhi are identified and phenotypic divergence between Salmonella serovars is uncovered, as distinct phenotypes between S. Typhooni and S. typhimurium were identified for cpxR.Abstract:
In order to survive external stresses, bacteria need to adapt quickly to changes in their environment. One adaptive mechanism is to coordinate and alter their gene expression by using two-component systems (TCS). TCS are composed of a sensor kinase that activates a transcriptional response regulator by phosphorylation. TCS are involved in motility, virulence, nutrient acquisition, and envelope stress in many bacteria. The pathogenic bacteria Salmonella enterica serovar Typhi (S. Typhi) possess 30 TCSs, is specific to humans, and causes typhoid fever. Here, we have individually deleted each of the 30 response regulators. We have determined their role during interaction with host cells (epithelial cells and macrophages). Deletion of most of the systems (24 out of 30) resulted in a significant change during infection. We have identified 32 new phenotypes associated with TCS of S. Typhi. Some previously known phenotypes associated with TCSs in Salmonella were also confirmed. We have also uncovered phenotypic divergence between Salmonella serovars, as distinct phenotypes between S. Typhi and S. Typhimurium were identified for cpxR. This finding highlights the importance of specifically studying S. Typhi to understand its pathogenesis mechanisms and to develop strategies to potentially reduce typhoid infections.read more
Citations
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Salmonella enterica Serovar Typhimurium CpxRA Two-Component System Contributes to Gut Colonization in Salmonella-Induced Colitis.
TL;DR: It is shown that CpxRA is dispensable for the induction of colitis by S. enterica serovar Typhimurium, whereas it is required for gut colonization, and it is revealed that C559RA-mediated envelope stress response plays a crucial role in Salmonella gut infection, suggesting that cpxRA might be a promising therapeutic target for infectious diarrhea.
Journal ArticleDOI
Transcriptional Regulation of the Multiple Resistance Mechanisms in Salmonella-A Review.
Michał Wójcicki,Olga Świder,Kamila J Daniluk,Paulina Średnicka,Monika Akimowicz,Marek Roszko,Barbara Sokołowska,Edyta Juszczuk-Kubiak +7 more
TL;DR: In this article, the authors summarized the current knowledge of molecular mechanisms that control gene expression related to antibiotic resistance of Salmonella strains and characterized regulators acting as transcription activators and repressors, as well as two component signal transduction systems.
Journal ArticleDOI
The role of two-component regulatory systems in environmental sensing and virulence in Salmonella.
Lucindo Cardoso de Pina,Lucindo Cardoso de Pina,Lucindo Cardoso de Pina,Fernanda Stephens Hermes da Silva,Teca Calcagno Galvão,Heidi Pauer,Rosana B. R. Ferreira,L. Caetano M. Antunes +7 more
Abstract: Adaptation to environments with constant fluctuations imposes challenges that are only overcome with sophisticated strategies that allow bacteria to perceive environmental conditions and develop an appropriate response. The gastrointestinal environment is a complex ecosystem that is home to trillions of microorganisms. Termed microbiota, this microbial ensemble plays important roles in host health and provides colonization resistance against pathogens, although pathogens have evolved strategies to circumvent this barrier. Among the strategies used by bacteria to monitor their environment, one of the most important are the sensing and signalling machineries of two-component systems (TCSs), which play relevant roles in the behaviour of all bacteria. Salmonella enterica is no exception, and here we present our current understanding of how this important human pathogen uses TCSs as an integral part of its lifestyle. We describe important aspects of these systems, such as the stimuli and responses involved, the processes regulated, and their roles in virulence. We also dissect the genomic organization of histidine kinases and response regulators, as well as the input and output domains for each TCS. Lastly, we explore how these systems may be promising targets for the development of antivirulence therapeutics to combat antibiotic-resistant infections.
Journal ArticleDOI
Molecular Characterization and Survive Abilities of Salmonella Heidelberg Strains of Poultry Origin in Brazil.
Roberta Torres de Melo,Newton N Galvão,Micaela Guidotti-Takeuchi,Phelipe Augusto Borba Martins Peres,Belchiolina Beatriz Fonseca,Rodrigo Profeta,Vasco Azevedo,Guilherme Paz Monteiro,Bertram Brenig,Daise Aparecida Rossi +9 more
TL;DR: The authors in this paper evaluated the genotypic and phenotypic characteristics of 20 strains of S. heidelberg (SH) isolated from broilers produced in southern Brazil and found that the similarity and presence of genetic determinants linked to virulence, antimicrobial resistance, biofilm formation, and in silico-predicted metabolic interactions revealed this serovar as a threat to public health.
Journal ArticleDOI
Roles of Two-Component Signal Transduction Systems in Shigella Virulence
Martina Pasqua,Marco Coluccia,Yoko Eguchi,Toshihide Okajima,Milena Grossi,Gianni Prosseda,Ryutaro Utsumi,Bianca Colonna +7 more
TL;DR: This review focuses on the role of TCSs in regulating the virulence phenotype of Shigella, an intracellular pathogen responsible for severe human enteric syndrome.
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