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

We investigated the presence of interleukin 1 (IL 1)-like molecules in normal unstimulated human epidermal tissue. Epidermis from 21 healthy individuals that was prepared by two different methods showed prostaglandin E2 (PGE2) and collagenase stimulating activity for human dermal fibroblasts. All epidermal extracts tested were positive for thymocyte comitogenic activity (lymphocyte activating factor; LAF). Removal of the horny layer decreased epidermal IL 1-like activity. In contrast to epidermal tissue, freshly isolated peripheral blood mononuclear cells (PBMC) contained no detectable PGE2 stimulatory activity. They could, however, produce PGE2 stimulatory activity after culture and stimulation with phytohemagglutinin (PHA) and concanavalin A (Con A). Little membranous IL 1-like activity could be detected in epidermal extracts when using a method that has previously rendered membranous IL 1 from murine proteose peptone-elicited peritoneal macrophages. Gel filtration chromatography yielded double peaks at m.w. approximately 30,000 and approximately 17,000 for all three activities. High pressure liquid chromatography (HPLC) analysis identified two species with a m.w. of approximately 17,000, and one approximately 30,000 species nondissociable in detergent, all having superposable PGE2 and collagenase stimulatory as well as LAF activity. These results establish the existence of IL 1-like molecules, together with a possible precursor, in normal human epidermis. The release of these preformed epidermal IL 1 stores might be important in vivo.
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PMID:Interleukin 1 is present in normal human epidermis. 300 15

Rat antiserum (as well as purified IgG and F(ab')2 fragments) raised against cellfree cytosolic extracts (CFE) of an alloimmune cytotoxic T lymphocyte (CTL) clone (B6.1.SF.1) is a potent inhibitor of CTL-mediated cytotoxicity. Inhibition by this antiserum (termed alpha CTLL) occurred during the postbinding lethal hit stages of cytolysis, because it did not inhibit target cell binding, nor did it prematurely dissociate CTL-target cell conjugates; inhibition was observed regardless of the H-2 haplotype of the target cell or CTL employed; inhibition was reversible when pretreated, and washed CTL were used as effectors; and in Ca++ pulse experiments alpha CTLL inhibited cytolysis beyond the Ca++-dependent (lethal hit) stage of cytolysis. This antiserum did not inhibit lysis of P815 cells by activated murine macrophages or by human cytotoxic cells, and extensive absorption of the antiserum on viable thymocytes, normal spleen cells, or CTL did not reduce its blocking activity. CFE prepared from several sources of CTL, including in vivo elicited peritoneal exudate lymphocytes (PEL), secondary MLC-generated CTL, alloimmune splenic T cells, and CTL clones, contained material(s) that inhibited the ability of alpha CTLL to block CTL-mediated cytolysis. The inhibitory activity was not detected in CFE from a variety of noncytotoxic cell sources, including thymocytes, normal C57BL/6 spleen cells, EL4 or P815 tumor cells, macrophages, and helper T cell clones. It was also absent in CFE prepared from human CTL cells. Furthermore, although alpha CTLL neutralizing activity was not detectable in CFE prepared from memory CTL, it rapidly appeared in CTL parallel to the development of cytolytic activity during secondary MLC cultures. The inhibitory material in CTL-CFE appeared to be specific for alpha CTLL antibody, as it did not affect the CTL blocking activity of anti-Lyt-2 or anti-target cell antisera. Finally, CTL-CFE did not contain proteases that degraded the alpha CTLL antibody. By the use of a soluble-phase immunoabsorbent assay, the biochemical properties of materials present CFE derived from CTL and reactive with alpha CTLL antibody were examined. CTL cytosolic material(s) reactive with alpha CTLL IgG was unstable to brief heating (50 degrees C) or acidic pH, but not to high ionic strength buffers. The material was inactivated by treatment with pronase but not by DNase, collagenase, or trypsin. Gel filtration chromatography of CTL-CFE revealed multiple peaks of alpha CTLL neutralizing activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Studies on the cytolytic attack mechanism of the cytotoxic T lymphocyte (CTL): preparation of antisera against cellfree cytosolic extracts of a CTL clone capable of blocking the lethal hit stage of CTL cytolysis and analysis of the cytolytic structure. 315 7

A small metalloproteinase that digests Azocoll was found in the uterus of the rat. Its activity increased to high levels during the postpartum period in parallel with the breakdown of the extracellular matrix exclusive of collagen (Sellers, A., and Woessner, J.F., Jr. (1980) Biochem. J. 189, 521-531). This enzyme has now been purified almost 7,000-fold to homogeneity from 12 g of tissue using molecular sieve chromatography, blue sepharose chromatography, and zinc-chelate chromatography. Gel electrophoresis with sodium dodecyl sulfate and dithiothreitol gives Mr = 28,000 for the latent form of the enzyme and Mr = 19,000 for the active form that arises spontaneously or by treatment with aminophenylmercuric acetate. The enzyme digests components of the extracellular matrix including gelatins of types I, III, IV, and V, fibronectin, and proteoglycan. It digests the alpha 2(I) chain of gelatin in preference to the alpha 1(I) chain and cleaves dinitrophenyl-Pro-Leu-Gly-Ile-Ala-Gly-Pro-D-Arg. It cleaves the B chain of insulin at two points: Ala14-Leu15 and Tyr16-Leu17. It has no action on collagens of types I, III, IV, or V at 26 degrees C and no action on elastin or phenylazo-Pro-Leu-Gly-Pro-D-Arg. The pH optimum is at pH 7 and the pI at 5.9. The enzyme requires zinc and calcium ions for activity; cobalt and strontium can partially replace these metal ions. The enzyme is not inhibited by low levels of phosphoramidon or Zincov. Its properties clearly distinguish it from collagenase, gelatinase (matrix metalloproteinase 2), and stromelysin (matrix metalloproteinase 3); it therefore constitutes a further member of the family of extracellular matrix metalloendopeptidases. The name matrix metalloproteinase 7 is proposed.
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PMID:Purification and properties of a small latent matrix metalloproteinase of the rat uterus. 318 22

Neutrophil elastase digests plasminogen to yield a fragment, mini-plasminogen, which is activatable to a mini-plasmin capable of escaping the action of the primary plasmin inhibitor. Such a molecule may play a role in joint destruction, either directly or by activation of procollagenase to collagenase. Synovial fluid samples from 34 acute joint effusions were examined by lysine-Sepharose chromatography and fibrinolytic assay of the fall-through (non-lysine-binding) fractions in presence of urokinase. Fragments similar to mini-plasminogen were found in 20 of 23 inflammatory effusions (cell count greater than 0.5 X 10(3)/microliter) and in none of 11 non-inflammatory (traumatic and osteoarthritic) effusions (cell count less than 0.5 X 10(3)/microliter) (p less than 0.001). Analysis of four inflammatory fluids by gel filtration on Bio-Gel P 100 and enzyme-linked immunoassay for plasminogen antigen revealed plasminogen fragments with molecular weight similar to mini-plasminogen (34,000 daltons) in three, and larger plasminogen fragments (or complexes of mini-plasminogen with other synovial fluid macromolecules) in all four. Fibrinolytic activity was demonstrable in fractions containing plasminogen fragments after treatment with tissue type plasminogen activator. In contrast with non-inflammatory effusions, inflammatory joint fluids contain plasminogen fragments with the properties of mini-plasminogen, suggesting their possible role in inflammatory joint destruction.
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PMID:Mini-plasminogen-like fragments of plasminogen in synovial fluid in acute inflammatory arthritis. 363 68

The ability of cellular vascular components including endothelial cells, smooth muscle cells, and fibroblasts to interact with the collagenolytic activity of invasive human tumor cell lines has been investigated. The human HT1080 fibrosarcoma and Bowe melanoma cells, which rapidly digest collagenous proteins in vitro, failed to dissolve them when cocultivated with bovine endothelial cells. This inhibition was not dependent on the ability of endothelial cells to form a monolayer separating the tumor cells from the collagenous substrate. In contrast, little collagenolysis inhibitory activity was detected in bovine vascular smooth muscle cells and human fibroblasts when compared to endothelial cells. Serum-free medium conditioned by endothelial cells inhibited tumor cell-mediated collagenolysis. Our data further suggest that this inhibition was mediated by secreted collagenase inhibitors, since endothelial cell-conditioned medium did not suppress the production of metalloproteinases by the tumor cells but inhibited the activities of collagenases derived from tadpole, rabbit, and human fibroblasts. Treatment of the endothelial cells with cycloheximide suppressed the collagenase inhibitory activity, demonstrating active production of collagenase inhibitors by the cells. Gel filtration chromatography of endothelial cell-conditioned medium allowed the separation of two distinct peaks with inhibitory activities for vertebrate collagenase in the molecular weight range of 70,000 to 75,000 and 30,000 to 35,000, respectively. While the inhibitor with an approximate molecular weight of 30,000 to 35,000 shared many properties with the tissue inhibitor of metalloproteinases, the high-molecular-weight inhibitor demonstrated characteristics not yet described for any collagenase inhibitor. The production and secretion of inhibitors of vertebrate collagenase by bovine endothelial cells may be of importance in the local control of collagen turnover under physiological as well as pathological conditions.
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PMID:Inhibition of tumor cell collagenolytic activity by bovine endothelial cells. 370 89

Hepatocytes obtained from livers derived from fed rats perfused with a collagenase-containing mixture were found to contain significant levels of platelet-activating factor activity as isolated by Silica Gel G thin layer chromatography. However, when soybean trypsin inhibitor was included in the collagenase-containing perfusion medium for hepatocyte preparation, platelet-activating factor activity could not be detected on Silica Gel G chromatograms. Examination of the lipids extracted from freeze clamped perfused rat livers revealed low, but detectable, levels of platelet-activating factor. Further investigation of these observations indicated that a lipid-like inhibitor was present in freeze-clamped perfused livers as well as in hepatocytes isolated in the presence of soybean trypsin inhibitor. In each instance platelet-activating factor and this newly discovered inhibitor, which comigrated at the same RF value on Silica Gel G thin layer chromatography plates, could be separated by further chromatography on high performance thin layer plates. The present study shows that platelet-activating factor is present in unstimulated liver and that its detection is masked by an endogenous lipid-like inhibitor.
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PMID:Occurrence of an endogenous inhibitor of platelet-activating factor in rat liver. 380 97

The N-terminal propeptide of type III procollagen was purified from human ascitic fluid by using (NH4)2SO4 precipitation, DEAE-Sephacel chromatography at pH 8.6, Sephacryl S-300 chromatography and another DEAE-Sephacel chromatography at pH 4.5. The Mr of the human peptide was about 42 000, which corresponds in size to the propeptide released by the specific N-proteinase during the extracellular processing of collagen. Bacterial-collagenase digestion of the human peptide produced three fragments, which could be separated on a Bio-Gel P-10 column. The human propeptide and its collagenase-derived fragments, an N-terminal non-collagenous domain Col 1, a C-terminal non-helical domain Col 2 and a collagenous domain Col 3, resembled those derived from the N-terminal segment of bovine type III procollagen in their amino acid composition. The human peptide was found to contain sulphate, which may explain its extremely low isoelectric point (3.1). Antibodies against the human N-terminal propeptide reacted similarly with both the purified human peptide and a corresponding segment of bovine type III procollagen. The human propeptide could be used in developing radioimmunoassays for monitoring fibrotic processes.
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PMID:Purification and characterization of the N-terminal propeptide of human type III procollagen. 408 23

An antibody against human skin collagenase obtained from tissue culture has been used to demonstrate the presence of immunoreactive collagenase in human skin extracts that have no detectable enzyme activity. Gel filtration of these skin extracts permits the separation of collagenase in its active form from the other proteins in the crude mixture. The recovery of enzymatically active collagenase appears to be due to the chromatographic separation of the enzyme from the serum antiproteases, alpha(1)-antitrypsin and alpha(2)-macroglobulin, suggesting that collagenase activity in fresh tissue extracts is masked by these known collagenase inhibitors. These findings are supported by in vitro studies untilizing human skin explants in tissue culture. The demonstration of collagenase in vivo in human skin indicates that the enzyme is present at concentrations that are of physiologic significance in collagen remodeling. Evidence is also presented that these findings are not unique to human skin.
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PMID:Human skin collagenase. The role of serum alpha-globulins in the control of activity in vivo and in vitro. 410 48

The presence of proteolytic enzymes such as cathepsin and elastase in platelets and the important role of collagen in platelet aggregation suggested that collagenase might be present in platelets. Epinephrine, ADP, and collagen liberate collagenase from platelets in plasma as measured by the hydrolysis of [(14)C]glycine-labeled collagen fibrils. The collagenase activity appeared in an early phase of platelet aggregation and was not a part of the release reaction. However, only 50% of the total collagenase could be liberated by the aggregating agents used. Sucrose density gradient analysis of platelet homogenates using appropriate sub-cellular markers indicated that collagenase appeared in both the granule and membrane fractions. Gel-filtered platelets failed to show collagenase activity before exposure to aggregating agents but released more collagenolytic activity than was found in platelet-rich plasma. This observation was explained by the finding that collagenolytic activity was inhibited by normal human plasma. One of the inhibitors is alpha(1)-antitrypsin as demonstrated by decreased inhibition in plasma from a patient with homozygous alpha(1)-antitrypsin deficiency. Platelet collagenase activity could also be demonstrated by its ability to decrease the viscosity of collagen solutions and to produce collagen fragments similar to those produced by other mammalian collagenases on disk gel electrophoresis. The observation that partially purified platelet collagenase could destroy the platelet-aggregating activity of collagen suggests that the enzyme might function in a negative feedback mechanism limiting thrombus formation.
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PMID:Human platelet collagenase. 436 8

Six collagenases present in the culture filtrate of Clostridium histolyticum have been purified to homogeneity. Chromatography over hydroxylapatite, Sephacryl S-200, and L-arginine-Affi-Gel 202 removes the brown pigment and the great majority of the contaminating proteinases active against casein, benzoyl-L-arginine ethyl ester, and elastin. Reactive Red 120 dye ligand chromatography subdivides the collagenases, which have very similar physicochemical properties, among four fractions. The final purification is achieved by chromatography over DEAE-cellulose and SP-Sephadex. All six collagenases, designated alpha, beta, gamma, delta, epsilon and zeta by the order of their purification, are highly active against collagen and devoid of other proteolytic activities. Each exhibits a single band on sodium dodecyl sulfate-polyacrylamide gels. Two distinct subspecies of the alpha and gamma enzymes have been isolated, which have the same molecular weight and activity but different isoelectric points. There is some less pronounced microheterogeneity for the other collagenases. On the basis of their activities toward native collagen and the synthetic peptide 2-furanacryloyl-L-leucylglycyl-L-prolyl-L-alanine (FALGPA), the six collagenases are divided into two classes. Class I collagenases (alpha, beta, and gamma) have high collagenase activity and moderate FALGPA activity while the class II collagenases (sigma, epsilon, and sigma) have moderate collagenase and high FALGPA activities. The relationship between these six collagenases and other reported to have been isolated in the literature has also been examined.
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PMID:Purification and separation of individual collagenases of Clostridium histolyticum using red dye ligand chromatography. 608 87


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