Neutrophil IL-10 suppresses peritoneal inflammatory monocytes during polymicrobial sepsis

LM Ocuin, ZM Bamboat… - Journal of leukocyte …, 2011 - academic.oup.com
LM Ocuin, ZM Bamboat, VP Balachandran, MJ Cavnar, H Obaid, G Plitas, RP DeMatteo
Journal of leukocyte biology, 2011academic.oup.com
Septic peritonitis remains a major cause of death. Neutrophils and inflammatory monocytes
are principal components of the innate immune system and are essential for defense against
a range of microbial pathogens. Their role and interaction in polymicrobial sepsis have not
been defined clearly. Using a murine model of CLP to induce moderate sepsis, we found
that neutrophil depletion did not alter survival, whereas depletion of neutrophils and
inflammatory monocytes markedly reduced survival. After neutrophil depletion, inflammatory …
Abstract
Septic peritonitis remains a major cause of death. Neutrophils and inflammatory monocytes are principal components of the innate immune system and are essential for defense against a range of microbial pathogens. Their role and interaction in polymicrobial sepsis have not been defined clearly. Using a murine model of CLP to induce moderate sepsis, we found that neutrophil depletion did not alter survival, whereas depletion of neutrophils and inflammatory monocytes markedly reduced survival. After neutrophil depletion, inflammatory monocytes had greater phagocytic capacity and oxidative burst, and increased expression of costimulatory molecules, TNF, and iNOS. Notably, peritoneal neutrophils produced IL-10 following CLP. Adoptive i.p. transfer of WT but not IL-10−/− neutrophils into septic mice reduced monocyte expression of TNF. In vitro experiments confirmed that monocyte suppression was mediated by neutrophil-derived IL-10. Thus, during septic peritonitis, neutrophils suppress peritoneal inflammatory monocytes through IL-10 and are dispensable for survival.
Oxford University Press