EC:3.4.24.3 - FACTA Search

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)

The subcellular localization of granulocyte collagenase, elastase and chymotrypsin-like cationic protein was determined using velocity centrifugation of cytoplasmic granules of human polymorphonuclear leukocytes. The proteases were assayed by immunochemical and enzymatic methods. Measurements of lactoferrin and myeloperoxidase distinguish exactly between constituents of specific and azurophil granules. Collagenase, elastase and chymotrypsin-like cationic proteins showed an almost identical sharp and unimodal distribution. They co-sedimented with myeloperoxidase demonstrating that these enzymes are localized exclusively in the azurophil granules.
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PMID:Localization of chymotrypsin-like cationic protein, collagenase and elastase in azurophil granules of human neutrophilic polymorphonuclear leukocytes. 19 54

Human granulocytes release 25-30% of the granular neutral proteases, collagenase and elastase, to the exterior of the cell during phagocytosis of yeast cells or immune complexes. Similar amounts of myeloperoxidase and lactoferrin are released. Crossed immunoelectrophoresis demonstrated that collagenase and elastase released extracellularly formed complexes with serum alpha1-antitrypsin. The presence of alpha1-antitrypsin complexes with granulocyte collagenase and elastase were also demonstrated in inflammatory processes, e.g. in the peritoneal exudate of acute peritonitis. The reactivity of neutrophil proteases with natural plasma protease inhibitors must be considered in assessing the role of these proteases as the etiologic agent of tissue damage and degradation during the inflammatory process.
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PMID:The extracellular release of granulocyte collagenase and elastase during phagocytosis and inflammatory processes. 19 89

The intraneutrophilic concentrations of lactoferrin, myeloperoxidase, collagenase and chymotrypsin-like cationic proteins were measured sequentially during acute bacterial infection. The serum levels of lactoferrin and myeloperoxidase were also followed as well as the 'eosinophil' cationic protein as a marker for eosinophil leucocytes. During the early course of infection there was a profound but reversible decrease of intraneutrophilic lactoferrin. The levels of cellular collagenase and chymotrypsin-like cationic proteins also tended to decrease reversibly during day 2-8 in most cases; myeloperoxidase levels were normal except for two cases. Serum myeloperoxidase and lactoferrin correlated with blood neutrophil counts. In spite of the absence of peripheral eosinophils the 'eosinophil' cationic proteins of serum were increased on the first day of infection, which may reflect increased eosinophil turnover.
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PMID:Neutrophil and eosinophil granulocytes in bacterial infection: sequential studies of cellular and serum levels of granule proteins. 20 75

The extracellular release from human neutrophils of the primary (azurophil) granule constituents, myeloperoxidase (MPO), chymotrypsin-like cationic protein (CCP), collagenase and lysozyme, and the secondary (specific) granule constituents, lactoferrin and lysozyme, was measured during ingestion of staphylococcus protein-A-IgG complexes. In buffer, lactoferrin release was consistently higher than that of the other protein. In serum, lactoferrin release increased concomitantly with ingestion, whereas the rate of lysozyme and especially of MPO release were stimulated to a higher degree than ingestion. Magnesium (0.5--2 mM) was more potent than calcium (0.5--2 mM) in promoting release but these cations worked synergistically. Zinc (0.5--4 mM) was found to be a potent and selective inhibitor of collagenase release. Manganese (0.25--4 mM), which inhibited the ingestion of SpA-IgG complexes, also inhibited release of CCP, collagenase, lysozyme and MPO, but actually stimulated lactoferrin release. The data suggests that lactoferrin and lysozyme may be confined to distinct granule populations or else released in a different fashion from the granules. When the effects on release of primary granule proteins are concerned it is suggested that the dissociation of binding of various agents to an anionic granule matrix may be affected differently by various cations.
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PMID:Effects of serum and cations on the selective release of granular proteins from human netrophils during phagocytosis. 22 47

Polymorphonuclear leukocytes (PMNs) are one of the main sources of enzymes responsible for tissue damage in inflammatory processes. These enzymes are stored in two types of cytoplasmic granules. Azurophil granules contain lysosomal hydrolases, neutral serine proteinases, and bactericidal elements (myeloperoxidase and lysozyme). Specific granules contain collagenase, lysozyme and lactoferrin but lack lysosomal hydrolases. PMNs store all four classes of tissue proteinases, carboxyl, thiol and serine proteinases in the azurophil granules, and metallo proteinases in the specific granules. Three serine proteinases have been identified, elastase, cathepsin G and a third enzyme, which together account for a large proportion of the protein of the azurophil granules. In the course of phagocytic events, all these enzymes are released extracellularly. The neutral proteinases degrade proteoglycans and collagen. In vitro, they stimulate B-lymphocytes, which suggests that they may have immuno-potentiating activity when they are released at sites of chronic inflammation.
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PMID:The polymorphonuclear leukocyte. 34 82

We have isolated and characterized a 2.4-kb cDNA clone encoding human neutrophil collagenase (HNC), a member of the family of matrix metalloproteinases restricted to secondary granules within neutrophils. Partial amino acid sequence was used to deduce oligonucleotide probes. These probes were used to screen a human granulocyte cDNA library derived from messenger RNA (mRNA) from a patient with chronic granulocytic leukemia. Cell-free translation of RNA produced from the cDNA produced a 52-Kd protein that was recognized by anti-HNC antibody. The cDNA clone was sequenced and shown to encode a 467-residue protein whose sequence matched those regions currently known for HNC. The enzyme exhibits 58% homology to human fibroblast collagenase and has the same domain structure. It consists of a 20-residue signal peptide, and an 80-residue propeptide that is lost on autolytic activation by cleavage of an M-L bond. Other regions identified include the autolytic degradation site, the "cysteine switch" residue that is involved in latency and activation, and a putative zinc binding sequence. HNC has six potential N-linked glycosylation sites. The cDNA hybridized to a 3.4-kb mRNA in RNA from a patient with chronic granulocytic leukemia, but not to RNA from uninduced HL60 cells or HL60 cells that had been induced to undergo granulocytic or monocytic maturation with dimethyl sulfoxide or 12-O-tetradecanoylphorbol 13-acetate, respectively. These results parallel those seen with lactoferrin and transcobalamin I, two other secondary granule proteins.
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PMID:Structure and expression of the cDNA encoding human neutrophil collagenase. 164 48

The concentration of the metalloproteinases type I collagenase and gelatinase was measured in isolated polymorphonuclear leukocytes (PMNLs) of renal transplant recipients treated either with cyclosporin A (CyA) and prednisolone (Pr) (n = 8) or azathioprine (Aza) and Pr (n = 8), and of healthy subjects (n = 12). PMNLs of CyA- and Aza-treated transplant patients displayed markedly higher gelatinase content (2427 +/- 489 and 3284 +/- 357 ng/10(7) cells) than PMNLs of controls (528 +/- 83 ng/10(7) cells). There was also a higher content of type I collagenase in PMNLs (3374 +/- 292 ng/10(7) cells) of Aza-treated patients and significantly elevated levels in PMNLs of patients receiving CyA (3625 +/- 229 ng/10(7) cells) compared with healthy subjects (2878 +/- 151 ng/10(7) cells). In contrast, neutrophil lactoferrin content was lower in transplant patients. Thus, immunosuppressive drugs may reduce the release of leukocyte proteinases, which are known for their deleterious role in proteolytic tissue and matrix breakdown. In vitro, the effects of different immunosuppressive drugs on the release of lactoferrin, collagenase and gelatinase were investigated on FMLPNTL-stimulated PMNLs isolated from healthy subjects. CyA but not Aza or Pr caused inhibition of gelatinase, collagenase and lactoferrin release.
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PMID:Effect of immunosuppressive drugs on the release of metalloproteinases from human polymorphonuclear leukocytes. 164 75

The secretion of matrix-degrading proteinases and protein components involved in the production of cytotoxic metabolites is an important step in the sequence of defense reactions executed by polymorphonuclear leukocytes (PMNL) in response to stimulation. In the present report, we have analyzed degranulation of PMNL stimulated either with soluble synthetic peptides fLeu-Phe (fMet, formylmethionyl), or fAhx-Leu-Phe-Ahx-Tyr-Phe (Ahx, aminohexyl) which trigger chemotaxis and degranulation, or with opsonized zymosan which induces phagocytosis. The release of elastase, myeloperoxidase and lactoferrin-containing granules was not at all or only slightly (less than 6%) induced either by fAhx-Leu-Phe-Ahx-Tyr-Leu or by zymosan particles. In contrast, type-I collagenase and gelatinase were secreted in significant amounts after treatment with these agents. The disruption of microfilaments by cytochalasin B and subsequent stimulation of PMNL with the formyl-peptide led to the secretion of elastase, myeloperoxidase and lactoferrin, and enhanced the release of gelatinase. Disruption of microtubules by incubation with colcemid resulted in inhibition of fAhx-Leu-Phe-Ahx-Thyr-Leu and fAhx-Leu-Phe-Ahx-Tyr-Leu/cytochalasin-B-induced granule release. Furthermore, we found different patterns of enzyme distribution after fractionation by centrifugation: most (greater than 90%) type-I collagenase and gelatinase was measured in the supernatant whereas 60-90% of elastase, myeloperoxidase and lactoferrin had partitioned into the cytoskeleton-containing pellet. Our results suggest that the two main types of secretory vesicles identified in PMNL (specific and azurophilic granules) consist of subpopulations. The differential association of the various types of granules with cytoskeletal elements may serve to control their sequential discharge.
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PMID:Release of proteinases from stimulated polymorphonuclear leukocytes. Evidence for subclasses of the main granule types and their association with cytoskeletal components. 201 20

The amount of active neutrophil (PMN) collagenase released extracellularly is dependent on the PMN-activating ligand. Neutrophils stimulated with soluble ligands, including FMLP, platelet-activating factor, or heat-aggregated IgG, released very little active collagenase, in contrast to cells stimulated with opsonized zymosan or surface-bound IgG. However, opsonized zymosan and surface-bound IgG did not differ appreciably from soluble ligands in effecting PMN production of superoxide, release of the specific granule component lactoferrin, or total (latent plus active) collagenase release, which suggests that there is more efficient collagenase activation during PMN stimulation with surface-bound ligands. These results suggest a role for surface (cartilage)-bound IgG in the release and activation of human neutrophil collagenase in the joints of patients with rheumatoid arthritis.
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PMID:Ligand-dependent release of active neutrophil collagenase. 215 97

The observation of the amoebocytes of primitive organisms led ELIAS METSCHNIKOFF in 1882 to the idea that blood phagocytes--neutrophilic leukocytes in particular--could constitute an anti-microbial defense system. This was the beginning of the phagocyte theory which METSCHNIKOFF developed over many years and which in essence is still valid. The author sets out to provide an updated view of the neutrophil. Circulating neutrophils are end-cells. They develop in the bone marrow by a relatively long maturation process during which the characteristic azurophil and specific granules are formed. The granules are stored organelles. The azurophil granules contain microbicidal enzymes, i.e. myeloperoxidase and lysozyme, together with a large number of acid hydrolases and neutral proteases. The specific granules contain lysozyme, a collagenase, lactoferrin and transcobalamines. By subcellular fractionation a third kind of storage organelle has recently been found which is characterized by its gelatinase content. Circulating neutrophils are activated on microbial invasion--first in the blood, by chemotactic factors formed at the site of infection, and subsequently by the microbes themselves which are phagocytosed by the immigrating neutrophils. Chemotactic factors lead to directed migration and induce the secretion of enzymes which presumably facilitate this process. Phagocytosis results in the mobilization of neutrophil products in large quantities. The contact between the cell and the microorganism activates in the neutrophil membrane an oxidase which produces superoxide, and a phospholipase which releases arachidonic acid. The latter is then oxidized by cyclooxygenase and lipoxygenase. There is also massive liberation of enzymes from all three storage compartments. The production of superoxide is the essential process for the killing of a large variety of microorganisms.
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PMID:[Phagocytes and phagocytosis 100 years after Metchnikoff. A current picture of the neutrophil leukocyte]. 629 50

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