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  • Title: Binding of hirudin to meizothrombin.
    Author: Fischer BE, Schlokat U, Himmelspach M, Dorner F.
    Journal: Protein Eng; 1998 Aug; 11(8):715-21. PubMed ID: 9749925.
    Abstract:
    Prothrombin (coagulation factor II) is the inactive precursor molecule of thrombin (coagulation factor IIa). Proteolytic cleavage of the peptide bond Arg320-Ile321 converts prothrombin into the two-chain thrombin precursor meizothrombin. Meizothrombin hydrolyses peptidyl substrates, but cleavage of fibrinogen is poor. Unfortunately, meizothrombin exhibits a significant autocatalytic activity and thus is not structurally stable in solution. Hirudin, the 65-residue peptide anticoagulant from the salivary gland of the European leech Hirudo medicinalis, is a highly specific and effective thrombin inhibitor. To study the interactions of meizothrombin and hirudin, recombinant prothrombin with active site Asp419 replaced by Asn (D419N-prothrombin) was produced in CHO cells and transformed into D419N-meizothrombin in vitro. D419N-meizothrombin exhibited no proteolytic and autocatalytic activity. D419N-meizothrombin was affinity purified at an immobilized C-terminal hirudin-derived peptide demonstrating the presence and activity of the anion binding exosite. D419N-meizothrombin exhibited binding activity to hirudin immobilized at the solid phase in an ELISA. Incubation of D419N-meizothrombin with hirudin resulted in a significant increase of intrinsic fluorescence. Fluorescence titration of D419N-meizothrombin with hirudin produced a sharp break in the titration curve at the molar equivalence point and a total fluorescence enhancement of 24%. However, the titration curve did not reflect a simple binding mechanism. Incubation of D419N-meizothrombin with fibrinopeptide A and C-terminal hirudin peptide 54-65 did not change fluorescence emission. Trp468 located in the gamma-loop of thrombin was replaced by Phe in the double-mutant D419N/W468F-thrombin. Similar to D419N-thrombin and D419N-meizothrombin, formation of the D419N/W468F-thrombin/hirudin complex resulted a significant increase in intrinsic fluorescence. Apparently, the binding of hirudin induces similar structural changes in both meizothrombin and thrombin. The structural change does not involve the flexible gamma-loop. The results suggest that meizothrombin binds hirudin similar to thrombin.
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