Different receptors mediate the hepatic catabolism of tissue-type plasminogen activator and urokinase

Abstract

Tissue-type plasminogen activator (t-PA) and urokinase (u-PA) are proteins with partial structural similarity and which are of importance in the therapy of thrombotic diseases. Both are known to be cleared from the circulation in vivo by uptake in the liver. The present study investigated whether the hepatic catabolism of u-PA and t-PA is mediated by a common receptor system. Four experimental protocols of increasing complexity were used: hepatocyte plasma membranes, isolated primary hepatocytes, liver perfusion and whole animals. For t-PA, a specific high-affinity binding site to hepatocytes and plasma membranes could be defined with a mean Kd of 4 .+-. 3 nM, whereas the Kd for u-PA was < 3 nM. Binding of t-PA could not be competed for by u-PA, and vice versa. Furthermore, clearance of t-PA in isolated perfused rat livers and in rabbits in vivo was 3-fold higher than that of u-PA, and a 50-100-fold molar excess of u-PA falied to inhibit clearance of t-PA in either system, and vice versa. Taken together, the results imply that hepatic elimination of t-PA and u-PA is mediated by distinct receptor systems of differing affinity.