Multiple roles of putrescine and spermidine in stress resistance and virulence of Salmonella enterica serovar Typhimurium

Polyamines (putrescine and spermidine) are small-cationic amines ubiquitous in nature and present in most living cells. In recent years they have been linked to virulence of several human pathogens including Shigella spp and Salmonella enterica serovar Typhimurium (S. Typhimurium). Central to S. Typ...

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Bibliographic Details
Published in:Microbial pathogenesis 2016-06, Vol.95, p.117-123
Main Authors: Espinel, Irene Cartas, Guerra, Priscila Regina, Jelsbak, Lotte
Format: Article
Language:English
Subjects:
Animals
Bacteremia - microbiology
Cell Line
Intracellular pathogens
Macrophages - microbiology
Mice, Inbred C57BL
Microbial Viability
Nitric oxide stress
Polyamines
Putrescine - metabolism
Salmonella enterica
Salmonella Infections, Animal - microbiology
Salmonella typhimurium
Salmonella typhimurium - pathogenicity
Salmonella typhimurium - physiology
Shigella
Spermidine - metabolism
Stress, Physiological
Virulence
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Summary:Polyamines (putrescine and spermidine) are small-cationic amines ubiquitous in nature and present in most living cells. In recent years they have been linked to virulence of several human pathogens including Shigella spp and Salmonella enterica serovar Typhimurium (S. Typhimurium). Central to S. Typhimurium virulence is the ability to survive and replicate inside macrophages and resisting the antimicrobial attacks in the form of oxidative and nitrosative stress elicited from these cells. In the present study, we have investigated the role of polyamines in intracellular survival and systemic infections of mice. Using a S. Typhimurium mutant defective for putrescine and spermidine biosynthesis, we show that polyamines are essential for coping with reactive nitrogen species, possibly linking polyamines to increased intracellular stress resistance. However, using a mouse model defective for nitric oxide production, we find that polyamines are required for systemic infections independently of host-produced reactive nitrogen species. To distinguish between the physiological roles of putrescine and spermidine, we constructed a strain deficient for spermidine biosynthesis and uptake, but with retained ability to produce and import putrescine. Interestingly, in this mutant we observe a strong attenuation of virulence during infection of mice proficient and deficient for nitric oxide production suggesting that spermidine, specifically, is essential for virulence of S. Typhimurium. •Polyamines are required for resistance against nitrosative stress, but not oxidative stress.•Polyamines are required for intracellular replication in macrophage-like cells.•Polyamines are required for virulence in mice deficient for nitric oxide synthase.•Spermidine is essential for virulence in mice, even in the presence of functional putrescine biosynthesis genes.
ISSN:0882-4010
1096-1208
DOI:10.1016/j.micpath.2016.03.008