Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human neutrophils stimulated with phorbol 12-myristate 13-acetate (PMA) produce the reactive oxidant hypochlorous acid (HOCl) and release the matrix metalloproteinases collagenase and gelatinase from secretory granules. We have investigated the stoichiometry of activation and inactivation of the two metalloproteinases with HOCl. HOCl activated purified neutrophil procollagenase at ratios between 10 and 40 mol of HOCl/mol enzyme, but caused inactivation at higher ratios. Maximum activation was about the same as that achieved by p-aminophenyl-mercuric acetate. However, less than a third of the total collagenase released from PMA-stimulated neutrophils was activated by coreleased HOCl and most of the activity was destroyed after 1 h of stimulation. These results indicate that the HOCl/enzyme ratio must fall within a narrow range for activation to occur. In contrast to collagenase, purified progelatinase underwent negligible activation (2.5 +/- 1.2%) at HOCl/enzyme molar ratios less than 30 and was destroyed at higher ratios. Likewise no active gelatinase could be detected in supernatant from PMA-stimulated cells and almost all of the proenzyme was destroyed by HOCl after 60 min stimulation. Our results illustrate that only collagenase can be activated by HOCl in vitro and that gelatinase is much more sensitive to inactivation. Since a precise HOCl/enzyme ratio is required for collagenase activation it is doubtful whether effective enzyme regulation by HOCl could occur in vivo where various HOCl scavengers are present.
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PMID:Different effects of hypochlorous acid on human neutrophil metalloproteinases: activation of collagenase and inactivation of collagenase and gelatinase. 130 76

Activation of latent human fibroblast-type and neutrophil interstitial procollagenases as well as degradation of native type I collagen by supra- and subgingival dental plaque extracts, an 80-kDa trypsinlike protease from Porphyromas gingivalis (ATCC 33277), a 95-kDa chymotrypsinlike protease from Treponema denticola (ATCC 29522), and selected bacterial species commonly isolated in periodontitis was studied. The bacteria included were Prevotella intermedia (ATCC 25261), Prevotella buccae (ES 57), Prevotella oris (ATCC 33573), Porphyromonas endodontalis (ES 54b), Actinobacillus actinomycetemcomitans (ATCC 295222), Fusobacterium nucleatum (ATCC 10953), Mitsuokella dentalis (DSM 3688), and Streptococcus mitis (ATCC 15909). None of the bacteria activated latent procollagenases; however, both sub- and supragingival dental plaque extracts (neutral salt extraction) and proteases isolated from cell extracts from potentially periodontopathogenic bacteria P. gingivalis and T. denticola were found to activate latent human fibroblast-type and neutrophil interstitial procollagenases. The fibroblast-type interstitial collagenase was more efficiently activated by bacterial proteases than the neutrophil counterpart, which instead preferred nonproteolytic activation by the oxidative agent hypochlorous acid. The proteases were not able to convert collagenase tissue inhibitor of metalloproteinase (TIMP-1) complexes into active form or to change the ability of TIMP-1 to inhibit interstitial collagenase. None of the studied bacteria, proteases from P. gingivalis and T. denticola, or extracts of supra- and subgingival dental plaque showed any significant collagenolytic activity. However, the proteases degraded native and denatured collagen fragments after cleavage by interstitial collagenase and gelatinase. Our results indicate that proteases from periodontopathogenic bacteria can act as direct proteolytic activators of human procollagenases and degrade collagen fragments. Thus, in concert with host enzymes the bacterial proteases may participate in periodontal tissue destruction.
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PMID:Identification of proteases from periodontopathogenic bacteria as activators of latent human neutrophil and fibroblast-type interstitial collagenases. 139 63

There are two types of collagenases, products of two distinct genes, called MMP-1 (matrix metalloproteinase 1 or "fibroblast-type collagenase") and MMP-8 ("neutrophil collagenase"). In synovial fluid, MMP-8 is stored as latent proenzyme in polymorphonuclear neutrophils. MMP-8 is activated by hypochlorous acid produced by myeloperoxidase from hydrogen peroxide and chloride ion and by the hydroxyl radical produced in Haber Weiss reaction fed by superoxide produced by, eg, NADPH (reduced nicotinamide adenine dinucleotide) oxidase and xanthine oxidase. In addition to activation upon secretion, oxidatively modified MMP-8 is susceptible to a subsequent proteolytic attack and activation by cathepsin G. The authors suggest that activation of neutrophil-derived MMP-8 involves oxidative, nonproteolytic activation upon secretion and a more slowly progressive proteolytic activation by cathepsin G (or chymases and tryptases), and that these oxidative and proteolytic activation mechanisms act in concert. In contrast to MMP-8, MMP-1 is synthesized de novo and secreted immediately after synthesis by fibroblasts, macrophages, and some epithelial cells. Human rheumatoid synovial tissue contains mainly fibroblast-type MMP-1 collagenase as assessed by collagenase extracted from synovial tissue and by MMP-1 and MMP-8 immunostaining. It is suggested that in vivo, MMP-1 in synovitis tissue is activated by a plasminogen activator/plasminogen/prostromelysin (alternatively tryptases)/proMMP-1 cascade. In conclusion, MMP-8 and MMP-1 show type-specific compartmentalization and modes of activation in rheumatoid synovial fluid and tissue.
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PMID:Collagenase in synovitis of rheumatoid arthritis. 141 81

The effects of various reactive oxygen species on latent human neutrophil and fibroblast-type interstitial collagenases were studied. Latent human neutrophil collagenases (proMMP-8) was efficiently activated by hypochlorous acid and hydrogen peroxide and less efficiently by the serine proteinases trypsin and chymotrypsin. Human plasmin and plasma kallikrein did not activate latent human neutrophil collagenase. The activation of latent human neutrophil collagenase by hypochlorous acid and hydrogen peroxide corresponded to the activation obtained with the other known non-proteolytic activators phenylmercuric chloride and gold thioglucose. The activation by hydrogen peroxide was inhibited by mannitol and desferoxamine, suggesting a localized Fenton-type reaction to be responsible for the generation of hydroxyl radical and/or hydroxyl radical-like reactive oxygen pathway of neutrophil procollagenase does not involve plasmin and plasma kallikrein, which are efficient proteolytic activators of latent fibroblast-type procollagenase (proMMP-1). Fibroblast procollagenase was also slightly activated by hypochlorous acid and gold thioglucose. Thus neutrophil procollagenase seems to prefer non-proteolytic means of activation and reactive oxygen species can be regarded as potent activators in vivo. Synovial-fluid neutrophils from rheumatoid arthritis patients were found to release collagenase in 30% active form when compared to same patients' peripheral blood neutrophils, which released collagenase in completely latent form. This may indicate that the triggering of neutrophil at the site of inflammation in vivo involves initial oxidative activation of collagenase upon the degranulation process.
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PMID:Reactive oxygen species as regulators of human neutrophil and fibroblast interstitial collagenases. 144 75

Interstitial collagenase either obtained from human neutrophils by phorbol myristate acetate (PMA) induced degranulation or isolated from human gingival crevicular fluid was found to be activated by addition of an oxidative agent, hypochlorous acid (HOCl). Collagenase released by PMA stimulated neutrophils was completely in latent form but underwent partial autoactivation during 16 h incubation at 22 degrees C in the presence of soy bean trypsin inhibitor. The partial autoactivation was potentiated to complete activation of released collagenase after addition of exogenous HOCl. Ascorbate prevented this activation of neutrophil collagenase. Isolated human gingival crevicular fluid collagenase represented an apparent Mr of 70 kD in completely latent form, whereas 70/54 kD enzyme species were detected for partially autoactive form of the enzyme. Western blot analysis of gingival crevicular fluid using a polyclonal antibody raised against purified human neutrophil collagenase revealed the same 70/54 kD molecular forms of the enzyme. The latent gingival crevicular fluid collagenase was also activated by HOCl and this activation could be prevented by ascorbate. Activation of the 70 kD latent collagenase by HOCl as well as by other non-proteolytic activators such as an organomercurial compound (phenylmercuric chloride) and a gold(I) compound (gold thioglucose) was not associated with detectable changes in apparent Mr, whereas trypsin activation resulted in fragmentation of 70 kD enzyme to 54 kD species. Our results provide further evidence for the neutrophil origin of gingival crevicular fluid collagenase and suggest that, in addition to proteolytic activation, oxidative and antioxidative agents seem to be able to regulate neutrophil collagenase activity.
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PMID:Hypochlorous acid induced activation of human neutrophil and gingival crevicular fluid collagenase can be inhibited by ascorbate. 166 35

The events leading to neutrophil collagenase activation in vivo were analyzed using phorbol myristate acetate (PMA) stimulated neutrophil supernatant. Under the conditions when this supernatant was incubated with the serine proteinase inhibitor, phenylmethylsulfonyl fluoride (PMSF), and then treated with the oxidant, hypochlorous acid (HOCl), collagenase was activated. When cathepsin G, a known activator of neutrophil collagenase, was also present, less HOCl was required to activate the latent collagenase. These experiments support the conclusion that activation of neutrophil collagenase occurs in vivo by both an oxidant and an enzymatic mechanism where the effectiveness of oxidants is enhanced by cathepsin G.
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PMID:Neutrophil collagenase activation: the role of oxidants and cathepsin G. 166 4

Neutrophils contain a collagenase that is stored in a latent form within the specific granule. With cellular activation, the latent enzyme is activated in association with the production of a variety of oxidants, including hypochlorous acid. We evaluated 4 nonsteroidal antiinflammatory drugs (NSAIDs) currently on the market and the new antiinflammatory/antirheumatic drug tenidap for their effects on the release of activated collagenase. In contrast to the 4 NSAIDs, tenidap profoundly inhibited the release of activated collagenase. This inhibition was predominantly due to interference with activation of the latent enzyme, rather than interference with enzyme release. The inhibition of collagenase activation was associated with a profound reduction in myeloperoxidase activity and in hypochlorous acid production. These observations demonstrate that tenidap has properties that set it apart from conventional NSAIDs and suggest that it may be a particularly useful agent in the treatment of inflammatory rheumatic disorders.
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PMID:Tenidap, in contrast to several available nonsteroidal antiinflammatory drugs, potently inhibits the release of activated neutrophil collagenase. 184 90

Interstitial collagenases (matrix metalloproteinase-1, EC 3.4.24.7), isolated from extracts of inflamed human gingiva, gingival crevicular fluid and saliva were characterized for their molecular weight, proteolytic and non-proteolytic activation and substrate specificity against soluble collagen types I, II and III. All three collagenases had Mr of 70 K. The enzymes existed predominantly in a latent form that could be activated by aminophenylmercuric acetate, gold thioglucose and hypochlorous acid. Among serine proteases tested, trypsin, chymotrypsin, neutrophil cathepsin G and a combination of trypsin and human gingival fibroblast prostromelysin activated gingival and salivary interstitial collagenases. Plasmin and plasma kallikrein, however, were relatively ineffective activators. The collagenases degraded soluble type I and II collagens at apparently equal rates but considerably faster than they did type III collagen. These findings suggest that the characteristics of interstitial collagenases found in inflamed human gingiva, gingival crevicular fluid and saliva are consistent with those of human neutrophil interstitial collagenase rather than the fibroblast-type interstitial collagenase. Thus, neutrophils are suggested to be the main source of such enzymes in inflamed human gingiva, crevicular fluid and saliva during adult periodontitis.
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PMID:The role of gingival crevicular fluid and salivary interstitial collagenases in human periodontal diseases. 196 17

The ability of various reactive oxygen species and serine proteases to activate latent collagenase (matrix metalloproteinase-1) purified from human neutrophils was examined. Latent 70-75 kD human neutrophil collagenase (HNC) was efficiently activated by known non-proteolytic activators phenylmercuric chloride (an organomercurial compound) and gold thioglucose (Au(I)-salt). Corresponding degree of activation was achieved by reactive oxygen species including hypochlorous acid (HOCl), hydrogen peroxide (H2O2) and hydroxyl radical generated by hypoxanthine/xanthine oxidase (HX/XAO). The presence of trace amounts of iron and EDTA were necessary and even enhanced H2O2 induced activation of latent HNC. This activation could be abolished by an iron chelator desferrioxamine and a hydroxyl radical scavenger mannitol. HOCl induced activation of latent HNC was not affected by desferrioxamine and mannitol. Thus, these compounds do not inhibit the active/activated form of HNC. Latent HNC could also be activated by trypsin and chymotrypsin but not by plasmin and plasma kallikrein. The ability of mannitol and desferrioxamine to inhibit the H2O2-induced activation of HNC suggests the transition metal dependent Fenton reaction to be responsible for localized and/or site-specific generation of hydroxyl radical/hydroxyl radical -like oxidants to act as the activating oxygen species. Our results support the ability of myeloperoxidase derived HOCl to act as a direct oxidative activator of HNC and further suggest the existence of a new/alternative oxidative activation pathway of HNC involving hydroxyl radical.
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PMID:Activation of latent human neutrophil collagenase by reactive oxygen species and serine proteases. 217 13

Collagenase is secreted from neutrophils as a latent or proenzyme. In an effort to understand the mechanism of collagenase activation in inflammation, human peripheral neutrophils (PMNs) were isolated and incubated with the tumor promotor, phorbol myristate acetate (PMA), which induces the neutrophils to degranulate and secrete proteinases. Neutrophil media were then treated with various activators or inhibitors of collagenase and other proteinases, and the collagenase activity was measured. A serine proteinase secreted from neutrophils, cathepsin G, was found to activate latent collagenase, but it was also found to require activation itself. Both hypochlorous acid (HOCl) and oxidized glutathione (GSSG) were tested for their collagenase-activating ability and were found to be successful only in the presence of active cathepsin G. A specific cathepsin G inhibitor (0.5 mM Z-Gly-Leu-Phe-CH2Cl) prevented the activation of latent collagenase by HOCl. To confirm these results, purified neutrophil cathepsin G was incubated with a neutrophil proteinase mixture which contained latent collagenase. The collagenase was shown to be activated upon incubation with purified cathepsin G. These results indicate that cathepsin G is a key mediator in neutrophil collagenase activation.
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PMID:Activation of neutrophil collagenase by cathepsin G. 254 91


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