Polyamines are required for virulence in Salmonella enterica serovar Typhimurium

Sensing and responding to environmental cues is a fundamental characteristic of bacterial physiology and virulence. Here we identify polyamines as novel environmental signals essential for virulence of Salmonella enterica serovar Typhimurium, a major intracellular pathogen and a model organism for s...

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Veröffentlicht in:	PloS one 2012-04, Vol.7 (4), p.e36149-e36149
Hauptverfasser:	Jelsbak, Lotte, Thomsen, Line Elnif, Wallrodt, Inke, Jensen, Peter Ruhdal, Olsen, John Elmerdahl
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Animals Bacteria Bacterial physiology Biological Assay Biology Biosynthesis Biosynthetic Pathways - genetics Caenorhabditis elegans Caenorhabditis elegans - microbiology Cell Proliferation Cloning Compartments Complementation Cues Disease Disseminated infection E coli Epithelial cells Epithelial Cells - metabolism Epithelial Cells - microbiology Escherichia coli Female Fever Food contamination & poisoning Gene expression Gene Expression Regulation, Bacterial Genes, Bacterial - genetics Humans Intracellular Intracellular Space - metabolism Intracellular Space - microbiology Life sciences Listeria Listeria monocytogenes Loci Mathematical models Medicine Mice Microbial Viability Mutation Mutation - genetics Pathogenicity Pathogens Physiological aspects Polyamines Polyamines - metabolism Proteins Putrescine Salmonella Salmonella Infections, Animal - microbiology Salmonella Typhimurium Salmonella typhimurium - genetics Salmonella typhimurium - growth & development Salmonella typhimurium - metabolism Salmonella typhimurium - pathogenicity Spermidine Staphylococcus aureus Survival Typhoid Typhoid fever Virulence Virulence (Microbiology) Virulence - genetics Waterborne diseases
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description	Sensing and responding to environmental cues is a fundamental characteristic of bacterial physiology and virulence. Here we identify polyamines as novel environmental signals essential for virulence of Salmonella enterica serovar Typhimurium, a major intracellular pathogen and a model organism for studying typhoid fever. Central to its virulence are two major virulence loci Salmonella Pathogenicity Island 1 and 2 (SPI1 and SPI2). SPI1 promotes invasion of epithelial cells, whereas SPI2 enables S. Typhimurium to survive and proliferate within specialized compartments inside host cells. In this study, we show that an S. Typhimurium polyamine mutant is defective for invasion, intracellular survival, killing of the nematode Caenorhabditis elegans and systemic infection of the mouse model of typhoid fever. Virulence of the mutant could be restored by genetic complementation, and invasion and intracellular survival could, as well, be complemented by the addition of exogenous putrescine and spermidine to the bacterial cultures prior to infection. Interestingly, intracellular survival of the polyamine mutant was significantly enhanced above the wild type level by the addition of exogenous putrescine and spermidine to the bacterial cultures prior to infection, indicating that these polyamines function as an environmental signal that primes S. Typhimurium for intracellular survival. Accordingly, experiments addressed at elucidating the roles of these polyamines in infection revealed that expression of genes from both of the major virulence loci SPI1 and SPI2 responded to exogenous polyamines and was reduced in the polyamine mutant. Together our data demonstrate that putrescine and spermidine play a critical role in controlling virulence in S. Typhimurium most likely through stimulation of expression of essential virulence loci. Moreover, our data implicate these polyamines as key signals in S. Typhimurium virulence.
doi_str_mv	10.1371/journal.pone.0036149
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Here we identify polyamines as novel environmental signals essential for virulence of Salmonella enterica serovar Typhimurium, a major intracellular pathogen and a model organism for studying typhoid fever. Central to its virulence are two major virulence loci Salmonella Pathogenicity Island 1 and 2 (SPI1 and SPI2). SPI1 promotes invasion of epithelial cells, whereas SPI2 enables S. Typhimurium to survive and proliferate within specialized compartments inside host cells. In this study, we show that an S. Typhimurium polyamine mutant is defective for invasion, intracellular survival, killing of the nematode Caenorhabditis elegans and systemic infection of the mouse model of typhoid fever. Virulence of the mutant could be restored by genetic complementation, and invasion and intracellular survival could, as well, be complemented by the addition of exogenous putrescine and spermidine to the bacterial cultures prior to infection. 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Here we identify polyamines as novel environmental signals essential for virulence of Salmonella enterica serovar Typhimurium, a major intracellular pathogen and a model organism for studying typhoid fever. Central to its virulence are two major virulence loci Salmonella Pathogenicity Island 1 and 2 (SPI1 and SPI2). SPI1 promotes invasion of epithelial cells, whereas SPI2 enables S. Typhimurium to survive and proliferate within specialized compartments inside host cells. In this study, we show that an S. Typhimurium polyamine mutant is defective for invasion, intracellular survival, killing of the nematode Caenorhabditis elegans and systemic infection of the mouse model of typhoid fever. Virulence of the mutant could be restored by genetic complementation, and invasion and intracellular survival could, as well, be complemented by the addition of exogenous putrescine and spermidine to the bacterial cultures prior to infection. Interestingly, intracellular survival of the polyamine mutant was significantly enhanced above the wild type level by the addition of exogenous putrescine and spermidine to the bacterial cultures prior to infection, indicating that these polyamines function as an environmental signal that primes S. Typhimurium for intracellular survival. Accordingly, experiments addressed at elucidating the roles of these polyamines in infection revealed that expression of genes from both of the major virulence loci SPI1 and SPI2 responded to exogenous polyamines and was reduced in the polyamine mutant. Together our data demonstrate that putrescine and spermidine play a critical role in controlling virulence in S. Typhimurium most likely through stimulation of expression of essential virulence loci. Moreover, our data implicate these polyamines as key signals in S. Typhimurium virulence.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>22558361</pmid><doi>10.1371/journal.pone.0036149</doi><tpages>e36149</tpages><oa>free_for_read</oa></addata></record>
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issn	1932-6203 1932-6203
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subjects	Analysis Animals Bacteria Bacterial physiology Biological Assay Biology Biosynthesis Biosynthetic Pathways - genetics Caenorhabditis elegans Caenorhabditis elegans - microbiology Cell Proliferation Cloning Compartments Complementation Cues Disease Disseminated infection E coli Epithelial cells Epithelial Cells - metabolism Epithelial Cells - microbiology Escherichia coli Female Fever Food contamination & poisoning Gene expression Gene Expression Regulation, Bacterial Genes, Bacterial - genetics Humans Intracellular Intracellular Space - metabolism Intracellular Space - microbiology Life sciences Listeria Listeria monocytogenes Loci Mathematical models Medicine Mice Microbial Viability Mutation Mutation - genetics Pathogenicity Pathogens Physiological aspects Polyamines Polyamines - metabolism Proteins Putrescine Salmonella Salmonella Infections, Animal - microbiology Salmonella Typhimurium Salmonella typhimurium - genetics Salmonella typhimurium - growth & development Salmonella typhimurium - metabolism Salmonella typhimurium - pathogenicity Spermidine Staphylococcus aureus Survival Typhoid Typhoid fever Virulence Virulence (Microbiology) Virulence - genetics Waterborne diseases
title	Polyamines are required for virulence in Salmonella enterica serovar Typhimurium
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