Neutrophils release neutrophil extracellular traps (NETs) which ensnare pathogens and have pathogenic functions in diverse diseases. We examined the NETosis pathways induced by five stimuli; PMA, the calcium ionophore A23187, nigericin, Candida albicans and Group B Streptococcus. We studied NET production in neutrophils from healthy donors with inhibitors of molecules crucial to PMA-induced NETs including protein kinase C, calcium, reactive oxygen species, the enzymes myeloperoxidase (MPO) and neutrophil elastase. Additionally, neutrophils from chronic granulomatous disease patients, carrying mutations in the NADPH oxidase complex or a MPO-deficient patient were examined. We show that PMA, C. albicans and GBS use a related pathway for NET induction, whereas ionophores require an alternative pathway but that NETs produced by all stimuli are proteolytically active, kill bacteria and composed mainly of chromosomal DNA. Thus, we demonstrate that NETosis occurs through several signalling mechanisms, suggesting that extrusion of NETs is important in host defence.DOI:
http://dx.doi.org/10.7554/eLife.24437.001
Neutrophils are endowed with a plethora of toxic molecules that are mobilized in immune responses. These cells evolved to fight infections, but when deployed at the wrong time and in the wrong place, they cause damage to the host. Here, we review the generalities of these cells as well as the difficulties encountered when trying to unravel them mechanistically. We then focus on how neutrophils develop and their function in infection. We center our attention on human neutrophils and what we learn from clinical immunodeficiencies. Finally, we use autoimmune disease to illustrate the harmful potential of dysregulated neutrophil responses.
The Toll/IL-1 receptor (TIR) domain plays a central role in Toll-like receptor (TLR) signalling. All TLRs contain a cytoplasmic TIR domain, which, upon activation, acts as a scaffold to recruit adaptor proteins. The adaptor proteins MyD88, Mal, TRIF, TRAM and SARM are also characterized by the presence of a TIR domain. MyD88, Mal, TRIF and TRAM associate with the TLRs via homophilic TIR domain interactions whereas SARM utilizes its TIR domain to negatively regulate TRIF. It is well established that the differential recruitment of adaptors to TLRs provides a significant amount of specificity to the TLR-signalling pathways. Despite this, the TIR-TIR interface has not been well defined. However, structural studies have indicated the importance of TIR domain surfaces in mediating specific TIR-TIR interactions. Furthermore, recent findings regarding the regulation of adaptors provide further insight into the crucial role of the TIR domain in TLR signalling.
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