Recombinant human protein C: comparative functional studies with human plasma protein C

Abstract

Protein C (PC) is the central protein in a major antithrombotic regulatory mechanism. Hereditary deficiencies of PC are associated with thrombosis. Therapeutic PC replacement may be an important treatment if pure functional human protein C is available in sufficient quantity. Human PC has been produced on a commercial scale using recombinant techniques. To study the functional properties of recombinant protein C (r-PC), we undertook a comparative investigation of the basic properties of r-PC and plasma protein C (n-PC). Both were isolated by immunopurification methods. Protac C activation proceeded at the same rate and kinetics for both forms. With thrombin-thrombomodulin (T-TM) activation, r-PC is significantly better than the activation of n-PC (for r-PC: Kcat/Km = 378 vs. n-PC: Kcat/Km = 35). No difference in the anticoagulant (aPTT prolongation) or profibrinolytic activities (inactivation of PAI-1 and PAI-3) were observed between activated r-PC and n-PC. Based on these functional studies, recombinant protein C has similar properties to the plasma form of protein C. However, T-TM activation of r-PC occurs faster than the n-PC. The mechanism is unknown, but may be due to the presence of larger amounts of single chain protein C which exists in a conformation more rapidly activated by the T-TM complex.