Relative antibacterial functions of complement and NETs: NETs trap and complement effectively kills bacteria

补体系统 细菌 中性粒细胞胞外陷阱 微生物学 抗菌剂 经典补体途径 补体膜攻击复合物 细胞内寄生虫 生物 补语(音乐) 免疫系统 化学 免疫学 炎症 生物化学 表型 基因 互补 遗传学
作者
Louiza Azzouz,Ahmed Cherry,Magdalena Riedl,Meraj A. Khan,Fred G. Pluthero,Walter H.A. Kahr,Nades Palaniyar,Christoph Licht
出处
期刊:Molecular Immunology [Elsevier]
卷期号:97: 71-81 被引量:36
标识
DOI:10.1016/j.molimm.2018.02.019
摘要

Neutrophil extracellular traps (NETs) are web-like DNA structures released by activated neutrophils. These structures are decorated with antimicrobial proteins, and considered to trap and kill bacteria extracellularly. However, the exact functions of NETs remain elusive, and contradictory observations have been made with NETs functioning as an antimicrobial or a pathogentrapping mechanism. There is a disconnect in the interpretation of the involvement of other major immune mechanisms, such as the complement system, as effectors of the function of NETs. We have recently shown that NETs activate complement. In this study, we aimed to elucidate the relative antimicrobial roles of NETs in the absence and presence of complement. Using primary human neutrophils, human serum (normal, heat inactivated, and C5-depleted), P. aeruginosa (at multiplicity of infection, MOI, of 1 or 10), S. aureus (MOI of 1), colony-counting assays and confocal microscopy, we demonstrate that most bacteria trapped by NETs remain viable, indicating that NETs have limited bactericidal properties. By contrast, complement effectively killed bacteria, but NETs decreased the bactericidal ability of complement and degrading NETs by DNases restored complement-mediated killing. Experiments with conditions allowing for specific pathway activation showed that the complement classical and lectin, but not the alternative, pathway lead to bacterial killing. NETs under static conditions showed limited killing of bacteria while NETs under dynamic conditions showed enhanced bacteria trapping and reduced killing. Furthermore, NETs incubated with normal human serum depleted complement and reduced the hemolytic capacity of the serum. This report, for the first time, clarifies the relative bactericidal contributions of NETs and complement. We propose that – while NETs can ensnare bacteria such as P. aeruginosa – complement is necessary for efficient bacterial killing.
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