Neutrophil ageing is regulated by the microbiome.

Abstract

Blood polymorphonuclear neutrophils provide immune protection against pathogens but also may promote tissue injury in inflammatory diseases1,2. Although neutrophils are generally considered as a relatively homogeneous population, evidence for heterogeneity is emerging3,4. Under steady-state conditions, neutrophil heterogeneity may arise from ageing and the replenishment by newly released neutrophils from the bone marrow5. Aged neutrophils up-regulate CXCR4, a receptor allowing their clearance in the bone marrow6,7, with feedback inhibition of neutrophil production via the IL17/G-CSF axis8, and rhythmic modulation of the haematopoietic stem cell niche5. The aged subset also expresses low levels of L-selectin (CD62L)5,9. Previous studies have suggested that in vitro-aged neutrophils exhibit impaired migration and reduced pro-inflammatory properties6,10. Here, we show using in vivo ageing analyses that the neutrophil pro-inflammatory activity correlates positively with their ageing in the circulation. Aged neutrophils represent an overly active subset exhibiting enhanced αMβ2 integrin (Mac-1) activation and neutrophil extracellular trap (NET) formation under inflammatory conditions. Neutrophil ageing is driven by the microbiota via Toll-like receptors (TLRs)- and myeloid differentiation factor 88 (Myd88)-mediated signalling pathways. Depletion of the microbiota significantly reduces the number of circulating aged neutrophils and dramatically improves the pathogenesis and inflammation-related organ damage in models of sickle cell disease or endotoxin-induced septic shock. These results thus identify an unprecedented role for the microbiota in regulating a disease-promoting neutrophil subset.