Aims
Acute myocardial infarction rapidly increases blood neutrophils (<2 h). Release from bone marrow, in response to chemokine elevation, has been considered their source, but chemokine levels peak up to 24 h after injury, and after neutrophil elevation. This suggests that additional non-chemokine-dependent processes may be involved. Endothelial cell (EC) activation promotes the rapid (<30 min) release of extracellular vesicles (EVs), which have emerged as an important means of cell–cell signalling and are thus a potential mechanism for communicating with remote tissues.
Methods and results
Here, we show that injury to the myocardium rapidly mobilizes neutrophils from the spleen to peripheral blood and induces their transcriptional activation prior to arrival at the injured tissue. Time course analysis of plasma-EV composition revealed a rapid and selective increase in EVs bearing VCAM-1. These EVs, which were also enriched for miRNA-126, accumulated preferentially in the spleen where they induced local inflammatory gene and chemokine protein expression, and mobilized splenic-neutrophils to peripheral blood. Using CRISPR/Cas9 genome editing, we generated VCAM-1-deficient EC-EVs and showed that its deletion removed the ability of EC-EVs to provoke the mobilization of neutrophils. Furthermore, inhibition of miRNA-126 in vivo reduced myocardial infarction size in a mouse model.
Conclusions
Our findings show a novel EV-dependent mechanism for the rapid mobilization of neutrophils to peripheral blood from a splenic reserve and establish a proof of concept for functional manipulation of EV-communications through genetic alteration of parent cells.
Acute myocardial infarction rapidly increases blood neutrophils (<2 hours). Release of neutrophils from bone marrow, in response to chemokine elevation, has been considered their source, but chemokine levels peak up to 24 hours after injury, and after neutrophil elevation. This suggests that additional non chemokine-dependent processes may be involved. Endothelial cell (EC) activation promotes the rapid (<30 minutes) release of extracellular vesicles (EVs), which are enriched in vascular cell adhesion molecule-1 (VCAM-1) and miRNA-126, and are thus a potential mechanism for communicating with remote tissues.
Here, we show that injury to the myocardium rapidly mobilises neutrophils from the spleen to peripheral blood and induces their transcriptional activation prior to their arrival at injured tissue. Ischemic myocardium leads to the generation and release of EC-derived-EVs bearing VCAM-1. EC-EV delivery to the spleen alters inflammatory gene and chemokine protein expression, and mobilises neutrophils to peripheral blood. Using CRISPR/Cas9 genome editing we generated VCAM-1-deficient EV and showed that its deletion removed the ability of EC-EV to provoke the mobilisation of neutrophils. Furthermore, inhibition of miRNA-126 in vivo reduced myocardial infarction size in a mouse model. Our findings show a novel mechanism for the rapid mobilisation of neutrophils to peripheral blood from a splenic reserve, independent of classical chemokine signalling, and establish a proof of concept for functional manipulation of EV-communications through genetic alteration of parent cells.
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