Regulation of macrophage fibrinolysis during venous thrombus resolution

Abstract

Background

Venous thromboembolism (VTE), which includes pulmonary embolism (PE) and deep vein thrombosis (DVT), is a serious cardiovascular disease with significant mortality and morbidity. Clinically, patients with faster resolution of a venous thrombi have improved prognosis. Urokinase-plasminogen activator (uPA), produced by macrophages, is a key mediator of fibrinolysis required for resolving venous thrombi and restoring vascular integrity. The major macrophage protein, plasminogen activator inhibitor type-2 (PAI-2), was originally identified as an inhibitor of uPA and is implicated in the modulation of pathways affecting fibrinolytic uPA activity, however its direct role in blocking uPA-mediated clot lysis is not known.

Objective

To determine the contribution of macrophage PAI-2 in inhibiting uPA-mediated fibrinolysis during resolution of DVT.

Methods

Using a murine model of venous thrombosis and resolution, we determined histological changes and molecular features of fibrin degradation in venous thrombi from WT mice and mice genetically deficient in PAI-2 and PAI-1, and determined the fibrinolytic activities of macrophages from these genotypes ex vivo.

Results

Acceleration of venous thrombus resolution by PAI-2^−/− mice increases fibrin degradation in venous thrombi showing a pattern similar to genetic deficiency of PAI-1, the major attenuator of fibrinolysis. PAI-2 deficiency was not associated with increased macrophage infiltration into thrombi or changes in macrophage PAI-1 expression. uPA-initiated fibrinolysis by macrophages in vitro could be accelerated by PAI-1 deficiency, but not PAI-2 deficiency.

Conclusion

PAI-2 has an alternate anti-fibrinolytic activity that is macrophage uPA independent, where PAI-1 is the dominant uPA inhibitor during DVT resolution.