Plasmin as a proinflammatory cell activator.

The serine protease plasmin generated from its zymogen plasminogen is best known for its function as a key enzyme of the fibrinolytic cascade. However, beyond fibrinolysis, plasmin has a number of crucial functions in a variety of processes, including inflammation. Various cells can bind plasminogen and plasmin via plasminogen-binding sites exposing a C-terminal lysine. Plasmin, generated as a result of plasminogen activation at the cell surface, is protected from its physiological inhibitors. Apart from its ability to facilitate cell migration in tissues, plasmin is capable of triggering signaling, which depends on cellular binding via its lysine-binding sites and its proteolytic activity. Plasmin-induced signaling affects various functions of monocytes, macrophages, DCs, and others, with the list of affected cells still growing. In vitro and in vivo studies have demonstrated the ability of plasmin to stimulate the production of cytokines, ROS, and other mediators, thereby contributing to inflammation. Plasmin-induced chemotaxis of monocytes and DCs indicates that it is also a potent chemoattractant for immune cells. Therefore, excessive activation of plasmin in chronic inflammatory or autoimmune diseases might exacerbate the activation of inflammatory cells and the pathogenesis of the disease. This review focuses on the available evidence for physiological and pathophysiological roles the serine protease plasmin in inflammatory processes.