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)

Using monoclonal antibody affinity chromatography, we isolated a 48,000 mol wt, glucose-rich glycoprotein (3M-1) from collagenase-solubilized rabbit renal tubular basement membrane (SRTA). The purified 3M-1 protein is noncollagenous, and is capable of inducing anti-TBM (tubular basement membrane) antibodies and interstitial nephritis in susceptible hosts. Further, when SRTA, at a normally nephritogenic dose, was selectively depleted of 3M-1, it lost its ability to induce disease. As shown by immunofluorescent techniques, 3M-1 appears to be localized on rodent TBM to the exclusion of the glomerular basement membrane, but was lacking in the TBM of the LEW rat, a strain devoid of the relevant antigen of anti-TBM disease. Immunoelectron microscopy revealed that 3M-1 was associated with the most lateral aspect of the TBM, which borders, and lies in the interstitium. These results indicate that 3M-1 is the nephritogenic antigen producing experimental anti-TBM disease.
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PMID:Isolation and characterization of the nephritogenic antigen producing anti-tubular basement membrane disease. 388 78

Collagen fibres form the stable architecture of connective tissues and their breakdown is a key irreversible step in many pathological conditions. The destruction of collagen is usually initiated by proteinases, the best known of which is the metalloproteinase collagenase (EC 3.4.24). Collagenase and related metalloproteinases are regulated at the level of their synthesis and secretion, through the action of specific stimuli such as hormones and cytokines, and also at the level of their extracellular activity through the action of a specific inhibitor, TIMP (tissue inhibitor of metalloproteinases), which irreversibly forms inactive complexes with metalloproteinases. Although the mechanisms governing the production of TIMP are unknown, immunologically identical forms of this glycoprotein have been detected in a wide variety of human body fluids and cell and tissue culture media. We therefore suggested that under physiological conditions this ubiquitous inhibitor predominates over active metalloproteinases and that tissue destruction may arise when any perturbation of this controlling excess arises. However, further progress towards testing this theory has been hindered by a lack of knowledge about the structure of TIMP and insufficient material for studying it in model systems. Here we describe the structure of TIMP predicted from its complementary DNA, its synthesis in Escherichia coli and transfected animal cells, and the finding that it is identical to a protein recently reported to have erythroid-potentiating activity (EPA).
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PMID:Sequence of human tissue inhibitor of metalloproteinases and its identity to erythroid-potentiating activity. 390 17

Treatment of mouse fibroblast BALB/c 3T6 cells with the tumor promoter 12-O-tetradecanoylphorbol-13-acetate or the antipromoter retinoic acid affects the release of several glycoproteins into the medium. The phorbol ester decreases the secretion of a 180-kd and 160-kd glycoprotein and increases the release of a 38-kd glycoprotein. In contrast, retinoic acid affects these glycoproteins in the opposite way. Moreover, retinoic acid enhances the level of a 55-kd and 60-kd glycoprotein. The 180-kd and 160-kd glycoproteins appear sensitive to collagenase and after pepsin treatment are converted to bands which comigrate with collagen alpha 1 (I) and alpha 2 (I). These glycoproteins are tentatively identified as being pro alpha 1 (I) and pro alpha 2 (I). The 38-kd glycoprotein appears to comigrate with the major excreted protein. Retinoic acid appears to reduce significantly the incorporation of mannose into secreted glycoproteins whereas treatment with the phorbol ester induces an enhancement in mannose incorporation. Our results indicate that both phorbol esters and retinoids alter the release of several glycoproteins from 3T6 mouse fibroblasts. These changes appear to relate to the influence of these compounds on the expression of the transformed phenotype of these cells.
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PMID:Retinoic acid and 12-O-tetradecanoylphorbol-13-acetate alter release of glycoproteins from mouse fibroblast BALB/C 3T6 cells. 391 54

Foetal-bovine nuchal ligament and aorta, together with adult-bovine aorta and pregnant uterus, were extracted under dissociative conditions in the absence and in the presence of a reducing agent. A collagenous glycoprotein of Mr 140000 [designated component 140K(VI)], identified in these extracts as the major periodate/Schiff-positive component, was shown to be related to collagen type VI. Digestion of non-reduced extracts with pepsin yielded periodate/Schiff-positive peptides that, on the basis of their electrophoretic mobilities, amino acid analyses and peptide 'maps', were identical with type VI collagen fragments prepared by standard procedures. It is concluded that collagen type VI occurs in vivo as molecule comprising three chains of Mr 140000 in which the helical domains account for about one-third of each polypeptide. Biosynthetic experiments with nuchal-ligament fibroblasts in culture demonstrated that a bacterial-collagenase-sensitive [3H]fucose-labelled glycoprotein, Mr 140000, was immunoprecipitated from culture medium by a specific antibody to the pepsin-derived form of collagen type VI. This result suggests that the collagenous polypeptides [140K(VI) components] represent the biosynthetic precursors of type VI collagen that do not undergo processing to smaller species before deposition in the extracellular matrix. Analyses of 5M-guanidinium chloride extracts of tissues with markedly different elastin contents and at different stages of development suggested that there was no relationship between collagen type VI and elastic-fibre microfibrils, a conclusion supported by the observation that the immunoprecipitated glycoprotein, Mr 140000, was distinct from the glycoprotein MFPI, Mr 150000, believed to be a constituent of these microfibrils [Sear, Grant & Jackson (1981) Biochem. J. 194, 587-598].
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PMID:Isolation from bovine elastic tissues of collagen type VI and characterization of its form in vivo. 393 35

A 140 K glycoprotein was detected in the culture media of human sarcoma and melanoma cell lines by labeling with several radioactive amino acid and sugar precursors, followed by sodium dodecylsulfate-polyacrylamide gel electrophoresis and fluorography. In contrast to this, in the culture media of metabolically labeled embryonic and skin fibroblasts this glycoprotein was not found. Likewise, a protein with an identical molecular weight of 140 K was also found in culture media after cell surface labeling of the neoplastic cells but not in the culture media from control cells. The [35S]methionine-labeled 140 K was not split by collagenase and did not appear to be a fragment of fibronectin. We discuss the possibility that secretion of the 140 K glycoprotein is a transformation-related phenomenon.
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PMID:Release of an Mr 140,000 glycoprotein in the culture media of certain human sarcoma and melanoma cell lines. 400 10

Ovariectomized ewes were treated with either nothing or implants of estrogen (E), progesterone (P), or E + P. Epithelial and stromal cells from caruncular and intercaruncular regions of sheep endometrium were dispersed by collagenase digestion and enriched by Ficoll gradient separation. Verification of cell types was by electron microscopy, keratin staining (epithelial cells), cell size, and appearance in culture. Epithelial cells were cultured under optimized conditions with [35S]methionine (S-met) and uptake of label by cells and its incorporation into cellular and secreted protein determined. Protein in the medium and lysed cells was analyzed by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Cells from E-treated animals had higher S-met uptake and incorporation into proteins (cellular and secreted) than cells from ewes treated with nothing and P-treated animals. E effects were not significantly reduced in the presence of P. When secreted protein was expressed as a percent of total incorporated S-met, P treatment either alone or with E increased the proportion of labeled protein secreted by cells. There were no significant differences between caruncular and intercaruncular. Two-dimensional polyacrylamide-gel electrophoresis of secreted proteins showed one major glycoprotein (mol wt, 46,000, isoelectric point, 5.8-6.5) and four minor proteins induced by E + P greater than E, and five minor proteins inhibited by the steroids. Both induction and inhibition of cellular proteins were also apparent, though of lesser magnitude. Overall, whereas E treatment in vivo influenced the rate of incorporation of S-met into proteins by epithelial cells in vitro, P treatment increased the proportion of newly synthesized protein which was secreted. Steroids caused significant alterations in the individual proteins secreted by ovine endometrium.
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PMID:The effects of estrogen and progesterone in vivo on protein synthesis and secretion by cultured epithelial cells from sheep endometrium. 404 79

1. A hydroxyproline-containing protein was isolated from the soluble fraction of sandal leaves (Santalum album L.) and the purified protein was homogeneous by disc electrophoresis. 2. It is a glycoprotein containing 16% carbohydrate, the components of which were mainly arabinose, with only small amounts (about 5%) of galactose. The principal amino acids were glutamic acid, aspartic acid, glycine, alanine, arginine, lysine, proline and hydroxyproline, which together comprised 60% of the total. The number of acidic amino acids exceeds the number of basic amino acids. By Sephadex gel filtration, the approximate molecular weight was found to be about 63000. The ratio of residues of hydroxyproline to those of arabinose was 1:2. 3. The native protein is resistant to the action of several proteolytic enzymes. After partial hydrolysis with 0.1m-HCl, the protein became susceptible to attack by Pronase but remained resistant to collagenase.
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PMID:Isolation and characterization of a hydroxyproline-containing protein from soluble extracts of the leaves of sandal (Santalum album L.). 437 67

Root pulps from bovine unerupted wisdom teeth produce a potent collagenase inhibitor together with latent collagenase when cultured in Eagle's minimal essential medium (Biochem. Int. 5, 763, 1982). The inhibitor was purified more than 700-fold from the explant medium using Con A-Sepharose, Ultrogel AcA 44 and DE-52 cellulose columns. It showed a single band (MW = 36,000) on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, but showed multiple bands on basic (pH 8.3) polyacrylamide gel electrophoresis and electrofocusing. The inhibitor is a sialo-glycoprotein containing approx. 20% carbohydrate by weight and its composition suggests that it contains complex-type oligosaccharides. The electrophoretic heterogeneity of the inhibitor was proved to be due to the attachment of different numbers of sialic acid residues. All the SH groups were demonstrated to exist as six disulfide linkages which might be involved in the inhibitory activity. The bovine pulp inhibitor does not combine with collagen. The addition of the inhibitor to activated collagenase resulted in dose-dependent inhibition of the enzyme activity, but the interaction between the inhibitor and activated collagenase is not tight enough for the complex to remain intact during gel filtration column chromatography. A rabbit antiserum was prepared against the inhibitor, and immunoglobulin purified from the antiserum can completely abolish the inhibitory activity of the inhibitor.
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PMID:Purification and characterization of bovine dental pulp collagenase inhibitor. 609 19

This report describes the biochemical characterization of a novel extracellular matrix component, " myotendinous antigen," which appears early in chick limb morphogenesis at sites connecting developing muscle fibers, tendons, and bone ( Chiquet , M., and D. Fambrough , 1984; J. Cell Biol., 98:1926-1936). This extracellular matrix antigen is a major component of the secretory proteins released into the medium by fibroblast and muscle cultures; the soluble form is characterized here. This form of myotendinous antigen is a large glycoprotein complex consisting of several disulfide linked subunits (Mr approximately 150,000-240,000). The differently sized antigen subunits are related, since they yielded very similar proteolytic cleavage patterns. M1 antibody can bind to the denatured subunits. The antigen subunits, as well as a Mr approximately 80,000 pepsin-resistant antigenic domain derived from them, are resistant to bacterial collagenase. Despite possessing subunits similar in size to fibronectin, myotendinous antigen appears to be both structurally and antigenically unrelated to fibronectin or to other known extracellular matrix components. About seven times more M1 antigen per cell nucleus was released into the medium in fibroblast as compared to muscle cultures. In muscle conditioned medium, myotendinous antigen is noncovalently complexed to very high molecular weight material that could be heavily labeled by [3H]glucosamine and [35S]sulfate. This material is sensitive to chondroitinase ABC and hence appears to contain sulfated glycosaminoglycans. We speculate that myotendinous antigen might interact with proteoglycans on the surface of muscle fibers, thereby acting as a link to tendons.
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PMID:Chick myotendinous antigen. II. A novel extracellular glycoprotein complex consisting of large disulfide-linked subunits. 620 99

Glycoprotein-containing extracts were obtained from thoracic arteries of embryonic chicks by sequential treatment involving 6 M guanidinium chloride, purified bacterial collagenase, and 6 M guanidinium chloride plus 50 mM dithiothreitol. Two major glycopolypeptides, designated G1 and G2, having apparent mol. wts. of 140,000 and 130,000 respectively were detected by SDS/polyacrylamide gel electrophoresis. Equilibrium density gradient ultracentrifugation demonstrated G1 and G2 to be glycoproteins and not proteoglycans or glycosaminoglycans. Amino acid analysis of a glycoprotein-enriched fraction confirmed the non-collagenous nature of G1 and G2. The highly insoluble nature of these glycoproteins suggests that these species are intimately associated with the extracellular matrix. Glycoproteins of similar size were also extracted from wing tendons indicating that G1 and G2 may be common to the elastic tissues of the chick.
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PMID:Two major non-collagenous glycoproteins in embryonic chick arteries. 621 56


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