In response to bacteria, neutrophils release extracellular vesicles capable of initiating thrombin generation through DNA-dependent and independent pathways.

Neutrophils release extracellular vesicles (EVs) and some subsets of neutrophil-derived EVs are procoagulant. In response to S. aureus, neutrophils produce EVs that associate electrostatically with neutrophil extracellular traps (NETs). DNA in NETs is procoagulant, but whether neutrophil EVs produced during bacterial challenge have similar activity is unknown. Given that EV activity is agonist- and cell-type dependent and coagulation contributes to sepsis, we hypothesized that sepsis-causing bacteria increase production of neutrophil-derived EVs, as well as EV-associated DNA, and intact EVs and DNA cause coagulation. We recovered EVs from neutrophils challenged with S. aureus (SA), S. epidermidis (SE), E. coli (EC), and P. aeruginosa (PA), and measured associated DNA and procoagulant activity. EVs from SA-challenged neutrophils (SA-EVs), which were previously characterized, displayed dose-dependent procoagulant activity as measured by thrombin generation (TG) in platelet-poor plasma. EV lysis and DNase treatment reduced TG by 90% and 37%, respectively. SE, EC, and PA also increased EV production and EV-associated extracellular DNA, and these EVs were also procoagulant. Compared to spontaneously released EVs, which demonstrated some ability to amplify Factor XII-dependent coagulation in the presence of an activator, only EVs produced in response to bacteria could initiate the pathway. SA-EVs and SE-EVs had more surface-associated DNA than EC-EVs and PA-EVs, and SA-EVs and SE-EVs contributed to initiation and amplification of TG in a DNA-dependent manner. However, DNA on EC- or PA-EVs played no role, suggesting that neutrophils release procoagulant EVs which can activate the coagulation cascade through both DNA-dependent and independent mechanisms.
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