Differentiation between proteolytic activation and autocatalytic conversion of human prothrombin. Activation of recombinant human prothrombin and recombinant D419N-prothrombin by snake venoms from Echis carinatus and Oxyuranus scutellatus

Recombinant human prothrombin (r-prothrombin) and recombinant mutant prothrombin with active site Asp419 substituted by Asn (D419N-prothrombin) were expressed in recombinant CHO cells, isolated and purified from the fermentation supernatant. The r-Prothrombin and D419N-prothrombm were digested by both Echis carinatus venom and Oxyuranus scutellatus venom. Prior to, during and after activation, generation of thrombin activity and the proteolytic degradation of the prothrombin polypeptide chain were analysed. Owing to the recombinant preparation and inactivity of D419N-prothrombin and its activation products, the proteolytic action of E.carinatus and O.scutellatus venoms could be studied without addition of thrombin inhibitor, without interference from autocatalytic digestion of prothrombin and in the absence of any other blood coagulation protease. The comparison between the activation of r-prothrombin and D419N-prothrombin by snake venoms permitted differentiation between proteolytic activation and autocatalytic conversion of prothrombin. Incubation of D419N-prothrombin with E.carinatus venom resulted in the generation of stable D419N-meizothrombin by hydrolysis of the peptide bond Arg320-Ile321. By contrast, O.scutellatus venom exhibited activity towards peptide bonds Arg320-Ile321 and Arg271-Thr272 and lower activity towards peptide bond Arg155-Ser156, thus converting D419-prothrombin into D419N-thrombin and also liberating Fragment-1, Fragment-2 and Fragment-1/2 activation peptide. Activation of r-prothrombin by E.carintitus and O.scutellatus venoms demonstrated the autocatalytic potential of prothrombin-derived molecules and indicated that meizothrombin hydrolysed the cleavage between Fragment-2 and thrombin A-chain in the meizothrombin molecule, but not in prothrombin, preferentially at position Arg284-Thr285. By contrast, both meizothrombin and thrombin exhibited no detectable activity towards peptide bond Arg320-Ile321 between thrombin A- and B-chain, although this site exhibits the optimum sequence for thrombin cleavage.