Beyond fibrinolysis: The confounding role of Lp(a) in thrombosis

Elevated plasma concentrations of lipoprotein(a) (Lp(a)) are a causal risk factor for the development of atherothrombotic disorders including coronary heart disease. However, the pathological mechanisms underlying this causal relationship remain incompletely defined. Lp(a) consists of a lipoprotein particle in which apolipoproteinB100 is covalently linked to the unique glycoprotein apolipoprotein(a) (apo(a)). The remarkable homology between apo(a) and the fibrinolytic proenzyme plasminogen strongly suggests an antifibrinolytic role: apo(a) contains a strong lysine binding site and can block the sites on fibrin and cellular receptors required for plasminogen activation, but itself lacks proteolytic activity. While numerous in vitro and animal model studies indicate that apo(a) can inhibit plasminogen activation and fibrinolysis, this activity may not be preserved in Lp (a). Moreover, elevated Lp(a) does not reduce the efficacy of thrombolytic therapy and is not a risk factor for some non-atherosclerotic thrombotic disorders such as venous thromboembolism. Accordingly, different prothrombotic mechanisms for Lp(a) must be contemplated. Evidence exists that Lp(a) binds to and inactivates tissue factor pathway inhibitor and stimulates expression of tissue factor by monocytes. Moreover, some studies have shown that Lp(a) promotes platelet activation and aggregation, at least in response to some agonists. Lp(a) alters the structure of the fibrin network to make it less permeable and more resistant to lysis. Finally, Lp(a) may promote the development of a vulnerable plaque phenotype that is more prone to rupture and hence the precipitation of atherothrombotic events. Further study, especially in animal models of thrombosis, is required to clarify the prothrombotic effects of Lp(a).