| Abstract: | Single-chain urokinase-type plasminogen activator (scu-PA) may be obtained from conditioned cell culture media (natural scu-PA) or by expression of the cDNA encoding human scu-PA in Escherichia coli (recombinant scu-PA). The activation of Glu-plasminogen by natural and recombinant scu-PA can be described by a sequence of three reactions, each of which obeys Michaelis-Menten kinetics. Initial activation of plasminogen to plasmin by scu-PA (reaction I) occurs with a high affinity (Km below 0.8 microM) for both scu-PAs, while the catalytic rate constant (k2) is 0.017 s-1 for recombinant scu-PA but only 0.0009 s-1 for natural scu-PA. Subsequent conversion of scu-PA to urokinase (two-chain urokinase-type plasminogen activator, tcu-PA) by generated plasmin (reaction II) occurs with a comparable affinity (Km about 5 microM) for natural and recombinant scu-PA and with a k2 of 0.23 s-1 for natural and 1.2 s-1 for recombinant scu-PA. Finally, activation of plasminogen by tcu-PA (reaction III) occurs with low affinity (Km 30-50 microM) but with a high catalytic rate constant (k2 about 5 s-1) for both natural and recombinant tcu-PA. The differences in the kinetic parameters of the activation of plasminogen by natural or recombinant scu-PA are thus mainly due to differences in turnover rate in the first reaction. Indeed, the catalytic rate constant of the first reaction is about 20-times higher for recombinant scu-PA than for natural scu-PA. Thus, surprisingly, the artificial, unglycosylated recombinant scu-PA molecule has a better catalytic efficiency than its natural glycosylated counterpart. |
