Lipocalin-2 resistance confers an advantage to Salmonella enterica serotype Typhimurium for growth and survival in the inflamed intestine

Lipocalin-2 resistance confers an advantage to Salmonella enterica serotype Typhimurium for growth and survival in the inflamed intestine

In response to enteric pathogens, the inflamed intestine produces antimicrobial proteins, a process mediated by the cytokines IL-17 and IL-22. Salmonella enterica serotype Typhimurium thrives in the inflamed intestinal environment, suggesting that the pathogen is resistant to antimicrobials it encou...

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Bibliographic Details
Published in:Cell host & microbe Vol. 5; no. 5; pp. 476 - 486
Main Authors: Raffatellu, Manuela, George, Michael D, Akiyama, Yuko, Hornsby, Michael J, Nuccio, Sean-Paul, Paixao, Tatiane A, Butler, Brian P, Chu, Hiutung, Santos, Renato L, Berger, Thorsten, Mak, Tak W, Tsolis, Renée M, Bevins, Charles L, Solnick, Jay V, Dandekar, Satya, Bäumler, Andreas J
Format: Journal Article
Language:English
Published: United States 08-05-2009
Subjects:
Animals
Cell Line
Disease Models, Animal
Gene Expression
Host-Pathogen Interactions
Humans
Interleukin-17 - genetics
Interleukin-17 - immunology
Interleukin-22
Interleukins - genetics
Interleukins - immunology
Intestines - immunology
Intestines - microbiology
Lipocalins - genetics
Lipocalins - immunology
Macaca mulatta
Mice
Mice, Inbred C57BL
Salmonella Infections - genetics
Salmonella Infections - immunology
Salmonella Infections - microbiology
Salmonella typhimurium - immunology
Salmonella typhimurium - physiology
Siderophores - immunology
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Summary:In response to enteric pathogens, the inflamed intestine produces antimicrobial proteins, a process mediated by the cytokines IL-17 and IL-22. Salmonella enterica serotype Typhimurium thrives in the inflamed intestinal environment, suggesting that the pathogen is resistant to antimicrobials it encounters in the intestinal lumen. However, the identity of these antimicrobials and corresponding bacterial resistance mechanisms remain unknown. Here, we report that enteric infection of rhesus macaques and mice with S. Typhimurium resulted in marked Il-17- and IL-22-dependent intestinal epithelial induction and luminal accumulation of lipocalin-2, an antimicrobial protein that prevents bacterial iron acquisition. Resistance to lipocalin-2, mediated by the iroBCDE iroN locus, conferred a competitive advantage to the bacterium in colonizing the inflamed intestine of wild-type but not of lipocalin-2-deficient mice. Thus, resistance to lipocalin-2 defines a specific adaptation of S. Typhimurium for growth in the inflamed intestine.
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ISSN:1931-3128
1934-6069
DOI:10.1016/j.chom.2009.03.011