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Abstract
Neutrophils are arguably the most important white blood cell for defense against bacterial and fungal infections. These leukocytes are produced in high numbers on a daily basis in humans and are recruited rapidly to injured/infected tissues. Phagocytosis and subsequent intraphagosomal killing and digestion of microbes have historically been the accepted means by which neutrophils carry out their role in innate host defense. Indeed, neutrophils contain and produce numerous cytotoxic molecules, including antimicrobial peptides, proteases, and reactive oxygen species, that are highly effective at killing the vast majority of ingested microbes. On the other hand, it is these characteristics – high numbers and toxicity – that endow neutrophils with the potential to injure and destroy host tissues. This potential is borne out by many inflammatory processes and diseases. Therefore, it is not surprising that host mechanisms exist to control virtually all steps in the neutrophil activation process and to prevent unintended neutrophil activation and/or lysis during the resolution of inflammatory responses or during steady-state turnover. The notion that neutrophil extracellular traps (NETs) form by cytolysis as a standard host defense mechanism seems inconsistent with these aforementioned neutrophil “containment” processes. It is with this caveat in mind that we provide perspective on the role of NETs in human host defense and disease.
Highlights
Neutrophils are arguably the most important white blood cell for defense against bacterial and fungal infections
Athens and colleagues reported that the total blood granulocyte pool comprises circulating and marginal granulocytes, which collectively are estimated as 6.5 × 108 cells/kg body weight in total (3.2 × 108 and 3.3 × 108 cells/kg body weight for circulating and marginal granulocyte pools, respectively) [5]
The process of phagocytosis significantly accelerates the rate of apoptosis in human neutrophils [22,23,24], and the increase occurs irrespective of any delay in cell fate imparted by cytokines or bacteria-derived factors [25]
Summary
Neutrophils are arguably the most important white blood cell for defense against bacterial and fungal infections These leukocytes are produced in high numbers on a daily basis in humans and are recruited rapidly to injured/infected tissues. It is these characteristics – high numbers and toxicity – that endow neutrophils with the potential to injure and destroy host tissues This potential is borne out by many inflammatory processes and diseases. The notion that neutrophil extracellular traps (NETs) form by cytolysis as a standard host defense mechanism seems inconsistent with these aforementioned neutrophil “containment” processes It is with this caveat in mind that we provide perspective on the role of NETs in human host defense and disease
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