Molecular Mechanisms of NET Formation and Degradation Revealed by Intravital Imaging in the Liver Vasculature

Overview

Journal Nat Commun

Specialty Biology

Date 2015 Mar 27

PMID 25809117

Citations 304

Authors

Elzbieta Kolaczkowska

Craig N Jenne

Bas G J Surewaard

Ajitha Thanabalasuriar

Woo-Yong Lee

Maria-Jesus Sanz

Kerri Mowen

Ghislain Opdenakker

Paul Kubes

Affiliations

Soon will be listed here.

Abstract

Neutrophil extracellular traps (NETs) composed of DNA decorated with histones and proteases trap and kill bacteria but also injure host tissue. Here we show that during a bloodstream infection with methicillin-resistant Staphylococcus aureus, the majority of bacteria are sequestered immediately by hepatic Kupffer cells, resulting in transient increases in liver enzymes, focal ischaemic areas and a robust neutrophil infiltration into the liver. The neutrophils release NETs into the liver vasculature, which remain anchored to the vascular wall via von Willebrand factor and reveal significant neutrophil elastase (NE) proteolytic activity. Importantly, DNase although very effective at DNA removal, and somewhat effective at inhibiting NE proteolytic activity, fails to remove the majority of histones from the vessel wall and only partly reduces injury. By contrast, inhibition of NET production as modelled by PAD4-deficiency, or prevention of NET formation and proteolytic activity as modelled in NE(-/-) mice prevent collateral host tissue damage.

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