Abstract

A fibrinolytic enzyme was purified from the cultured mycelia of Armillaria mellea by ion-exchange chromatography followed by gel filtration, and was designated A. mellea metalloprotease (AMMP). The purification protocol resulted in a 627-fold purification of the enzyme, with a final yield of 6.05%. The apparent molecular mass of the purified enzyme was estimated to be 21 kDa by SDS–PAGE, fibrin-zymography and gel filtration chromatography, which revealed a monomeric form of the enzyme. The optimal reaction pH value and temperature were, pH 6.0, and 33 °C, respectively. This protease effectively hydrolyzed fibrinogen, preferentially digesting the Aα-chain over the Bβ- and r-chains. Enzyme activity was inhibited by Cu 2+ and Co 2+, but enhanced by the addition of Ca 2+ and Mg 2+ ions. Furthermore, AMMP activity was potently inhibited by EDTA, and was found to exhibit a higher specificity for the substrate S-2586 for chymotrypsin, indicating that the enzyme is a chymotrypsin-like metalloprotease. The first 24 amino acid residues of the N-terminal sequence were MFSLSSRFFLYTLCL SAVAVSAAP, which is extremely similar to the 24 amino acid residues of the N-terminal sequence of the fruiting body of A. mellea. These data suggest that the fibrinolytic enzyme AMMP, obtained from the A. mellea exhibits a profound fibrinolytic activity. The mycelia of A. mellea may thus represent a potential source of new therapeutic agents to treat thrombosis.

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