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Degradation of intact cartilaginous tissue (bovine nasal cartilage) by oxygen-derived free radicals (ODFR) generated enzymatically by xanthine oxidase and hypoxanthine was studied. The degree of tissue destruction was determined by measuring the indentation under a defined compression force as well as by the loss of uronic acid- and hydroxyproline-containing matrix components. Cartilage slices altered by prior elastase treatment were more susceptible to oxygen radical attack than were intact tissue specimens. Degradation of cartilage matrix by ODFR was strongly inhibited by superoxide dismutase or catalase. Coincubation of latent collagenase from polymorphonuclear leukocytes with the ODFR-generating system led to activation of collagenolytic activity, resulting in marked degradation of the bovine cartilage slices. In further studies, activated polymorphonuclear leukocyte-collagenase was shown to degrade intact human articular cartilage to a degree of mechanical insufficiency. Thus, our assay system serves as an in vitro model of tissue damage, which may be relevant to pathophysiologic states such as rheumatoid arthritis.

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Three human matrix degrading leukocyte proteinases, type I collagenase, gelatinase and a new type IV collagenase were isolated in latent and active form. Activation of all three latent enzymes could be achieved by treatment with either organomercurials or with trypsin. In addition the 90 kDa latent type I-collagenase could be activated by disulfides, while a newly discovered 70 kDa latent form could be activated with organomercurials or with trypsin. The active type I collagenase was inhibited by gamma-anticollagenase from human serum (and the leukocyte type I collagenase inhibitor, while the newly found type IV collagenase was inhibited only partially. The complexes formed from gamma-anticollagenase with type I collagenase, i. e. latent enzyme, are not reactive site associated complexes. The binding is not of a substrate-like and competitive manner. After inhibition of the enzyme though inactive against its natural substrates it is still hydrolyzing the synthetic low molecular weight octapeptide DNP-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg-OH.

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A recording viscometer for monitoring the action of mammalian collagenase on soluble collagen is described. For this system, where only one peptide bond is cleaved per subunit, it is shown theoretically that the decrease in viscosity is proportional to the fraction of molecules cleaved. Experimental confirmation was obtained by parallel monitoring of hydrolysis by using the fluorescamine assay of liberated amino groups. The initial velocity of reaction is proportional to substrate concentration and enzyme concentration.

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A beta 1-serum component, beta 1-anticollagenase, capable of inhibiting various mammalian tissue collagenases, was isolated from human plasma by gel filtration, affinity chromatography and ion-exchange chromatography. The inhibitor contains 1-2 free sulfhydryl groups, which are a prerequiste for inhibitory activity and for binding to the thiol-Sepharose affinity support. Alkylation of beta 1-anticollagenase by iodoacetamide blocks inhibitory activity. The inhibitor was purified to apparent homogeneity and exhibited a Mr = 30500 determined by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The amino acid and carbohydrate composition was determined. According to its composition and the isoelectric focussing beta 1-anticollagenase is an acidic protein with an isoelectric point of 5.6. Inhibition of human leukocyte collagenase proceeds in a strong 1 : 1 stoichiometric reaction. The mechanism of this association takes place by a disulfide/thiol interchange reaction as has been previously indicated for human leukocyte collagenases in forming the latent enzyme [Macartney, H. W. and Tschesche, H. (1980) FEBS Lett. 119, 327-332]. The beta 1-anticollagenase--leukocyte-collagenase complex (latent enzyme) is activatable by disulfide-containing compounds such as cystine, oxidised glutathione, insulin, relaxin, trypsinogen and others, but not by 179,203-di(S-carboxymethyl)trypsinogen, or its trypsin derivative. Compounds containing inaccessible disulfide bonds, e.g. chymotrypsin, or sulfhydryl groups, e.g. D-penicillamine, do not activate the complex. Activation is, however, easily obtained with the oxidised-glutathione-generating system myeloperoxidase/H2O2/glutathione as was previously demonstrated for the human leukocyte latent collagenase activatable in a phagocytosis-simulated respiratory burst [Tschesche, H. and Macartney, H. W. (1981) Eur. J. Biochem. 120, 183-190].

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A simple and rapid procedure is described for the separation of the human leucocyte enzymes alanine aminopeptidase, cathepsin G, collagenase, elastase and myeloperoxidase. The enzymes are prepared from leucocytes, obtained from buffy coat, by repeated extraction with buffer A(1 M salt concentration). The pooled extracts are successively subjected to batch adsorption on concanavalin A-Sepharose, gel filtration on Sephacryl S-300, affinity chromatography on collagen-Sepharose 4-B, batch adsorption on CM-Sephadex C-50 and adsorption chromatography on hydroxyapatite. The yields of the isolated enzymes of a typical preparation are 47% alanine aminopeptidase, 9% cathepsin G, 90% latent and active collagenase, 23% elastase and approximately 100% myeloperoxidase with respect to the pooled extracts. The cathepsin G, collagenase and elastase preparations are essentially free from other proteolytic enzymes and may be used without further purifications.

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Latent human PMN leucocyte collagenase (enzyme-inhibitor complex) was shown to require zinc for the property of being activatable by various disulfides [see Macartney, H.W. and Tschesche, H. (1980) FEBS Lett. 119, 327--332]. The active enzyme also requires zinc for activity, indicating a possible participation in the enzyme's reaction mechanism and/or stabilization of the active site. The zinc in the latent enzyme may be removed by dialysis against EDTA, or cysteine. This produces a zinc-free latent enzyme which cannot be activated by any of the disulfide-containing activators. Readdition of zinc to the EDTA-inhibited latent enzyme, at the same concentration as the EDTA, produces an activatable latent enzyme once again. However, excessive zinc concentrations (more than three times the concentration of EDTA) exhibited an inhibitory effect on the activation process. Thereafter the inhibitor cannot be removed by disulfides from the enzyme-inhibitor complex of the latent enzyme. The zinc in the latent enzyme may be replaced by other double-positive metal ions such as cobalt, manganese, magnesium and copper.

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