Solution structure of the kringle domain from urokinase-type plasminogen activator.

The solution structure of the kringle domain from urokinase-type plasminogen activator (u-PA) has been determined using 1H nuclear magnetic resonance spectroscopy and dynamical simulated annealing calculations. A total of 35 structures, 20 generated using a distance geometry method prior to simulated annealing and 15 generated using initial random phi, psi values, have been calculated based on 946 experimental nuclear Overhauser effect distance constraints and 48 dihedral angle constraints. Excluding the N- and C-terminal residues (-1 to 12, 77 to 82) and a number of surface residues (M18, G19, S42, D55 to R60, G67) that are disordered or flexible, the root mean square deviation values from the mean structure are 0.

1H NMR characterization of the urokinase kringle module. Structural, but not functional, relatedness to homologous domains.

The human urokinase (uPA) kringle (K) domain has been characterized via high resolution NMR spectroscopy. The 1H spectrum is analogous to that of the K2 domain of tissue-type plasminogen activator (tPA) and other homologous domains from the plasminogen (Pgn) heavy chain. This indicates a similar folding for the uPA/K.

Heparin binding to the urokinase kringle domain.

The binding of urokinase to immobilized heparin and dextran sulfate was studied using activity assays of the bound urokinase. The markedly higher binding observed with high M(r) urokinase compared to low M(r) urokinase indicated a role for the amino-terminal fragment (ATF). This was confirmed by the use of inactive truncated urokinase and monoclonal antibodies specific for the ATF in competition assays of urokinase binding.