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)

Tendons transmit the force of muscle contraction to bone to effect limb movement. Special structural and biological properties of tendon have developed to facilitate force transmission. The tendon has a complex organization of cells surrounding the collagen bundles inside tendon as well as at the tendon surface. Internal cells may act to maintain the bulk of the collagen in tendon. External cells in the epitenon may provide lubrication for tendon gliding. To develop better understanding of these processes and the roles the cell populations play, we isolated cells from the surface and interior of tendon and studied them in vitro. Flexor tendons from 8-week-old white Leghorn chickens were separated into two distinct cell populations: the outer synovial cells and the fibroblasts more internal in tendon. These cell populations were discernible by their locations in the intact tendon, determined by sequential enzymatic and physical release from their substrata. Initially, some cells eluted in Hanks' salt solution (HSS) (population 1); then synovial cells were released after a 2-min treatment with 0.5% collagenase (population 2). Next, a population of synovial cells was released in high yield by treatment with 0.25% trypsin (step III, population 3). Step III, population 3 cells were used as synovial cells (SCs). Next, a population of SCs and fibroblasts were released by scraping with a rubber policeman (population 4). Subsequently, fibroblasts were released after incubation with 0.5% collagenase (population 5). A more direct procedure (procedure 2) to isolate the synovial and internal tendon cells involved treatment in 0.5% collagenase followed by sedimentation at 900 g. Cells that sedimented were largely fibroblasts, whereas the cells that remained at the top of the tube were largely SCs. Cells designated as SCs, isolated by procedure 2, most likely contained surface cells from epitenon and internal interfascicular cells from endotenon and paratenon. Surface tendon cells separated by sequential enzymatic and physical release from their substrata (by procedure 1) had all the following characteristics: distinct subpopulations of cells based on morphology; presence of cytoplasmic, lipid-containing vesicles; decreased sensitivity to trypsin; and reduced generation time as compared with that of internal fibroblasts. Conversely, the internal fibroblasts (IFs) appeared to represent a more uniform population based on morphological characteristics.
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PMID:Cell populations of tendon: a simplified method for isolation of synovial cells and internal fibroblasts: confirmation of origin and biologic properties. 333 41

A successful technique for the isolation of highly pure suspensions of viable leukocytes from the small intestine of cattle is described. Procedures ranging from mechanical mincing to enzymatic digestion of tissues were compared. The most reliable and reproducible procedure was the sequential treatment of tissues with dithiothreitol (DTT), ethylenediaminetetraacetic acid (EDTA) in calcium-magnesium-free salt solutions, and collagenase. Two populations of mucosal leukocytes were obtained from the small intestine. One population was derived from within the epithelium (intraepithelial leukocytes, IEL), the second from within the lamina propria (lamina propria leukocytes, LPL). At least 2 X 10(6) viable leukocytes were obtainable from each square centimeter of the intestinal mucosa from either the epithelium or lamina propria. Erythrocyte rosetting and immunofluorescence characterization with conventional antisera and monoclonal antibodies (MAB) demonstrated that IEL were predominantly T cells (60%), with relatively few B cells present (10%), while LPL contained relatively high numbers of B cells (28%) and a reasonable percentage of T cells (45%). Both cell populations proliferate in response to stimulation with T and B cell mitogens. Addition of the thiol compound, 2-mercaptoethanol (2-ME) strongly augmented the mitogenic response of both cell isolates. Human recombinant interleukin-2 (hr-IL-2) in the presence or absence of additional stimuli was found to be able to induce the proliferation of both cell types. These results demonstrate that functional leukocytes can be isolated from the small intestine of cattle, and that they can maintain their responsiveness to both T and B cell mitogens and to exogenous cloned IL-2.
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PMID:Bovine gut-associated lymphoid tissue--morphologic and functional studies. I. Isolation and characterization of leukocytes from the epithelium and lamina propria of bovine small intestine. 350 Feb 40

Bovine corneal Descemet's membrane (DM) was subjected to limited pepsin digestion. Soluble native collagens were fractionated by differential salt precipitation, and a mixture of type V collagen and collagenous fragments with a chain Mr of 50,000 (50K) was obtained at a concentration of 1.5 M NaCl. Further purification of the 50K collagen by molecular sieve and high-performance liquid chromatography resulted in the isolation of two-non-disulfide-bonded polypeptides, 50K-A and 50K-B, which were susceptible to several neutral proteases, including bacterial collagenase. By the criteria of peptide mapping, amino acid composition, and N-terminal sequence analysis, 50K-A and 50K-B were structurally dissimilar, although both chains contained Gly-X-Y repeats. 50K-A and 50K-B were immunologically and structurally distinct from collagen type I, III, IV, V, and VI. Immunohistochemical studies of bovine ocular tissue showed preferential distribution of the collagen containing the 50K fragment in the DM, with a more disperse arrangement of apparently interconnecting fibrils in the corneal stroma. Type VIII collagen isolated from the culture medium of metabolically radiolabeled bovine corneal endothelial (BCE) cells and its pepsin-resistant Mr 50 000 domain(s) both cross-reacted with antisera to 50K polypeptides from the corneal DM. Additionally, the CNBr peptide maps of pepsin-resistant Mr 50 000 polypeptides of type VIII collagen isolated from BCE cells and bovine corneal DM were highly similar.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Type VIII collagen from bovine Descemet's membrane: structural characterization of a triple-helical domain. 352 59

NC1 subunits were purified from gel filtration pools of acid-extracted, collagenase-digested human glomerular basement membranes (hGBM). This methodology, which enriches 28-kDa monomers (M28) in the total digest, allowed purification of these monomers and 24-kDa (M24) and 26-kDa (M26) monomers free from dimers. Reactivity of these subunits with Goodpasture autoantibodies using immunoblotting of sodium dodecyl sulfate-polyacrylamide gel electrophoresis and two-dimensional nonequilibrium pH gradient electrophoresis gels showed strong reactivity with the purified M28 subunits. Inhibition enzyme-linked immunosorbent assay, used to quantitate the reactivity of the purified NC1 subunits, indicated that M28 had a greater than 10-fold increase in ability to inhibit binding to NC1 than NC1 itself. Comparison of hGBM NC1 components were made with those obtained from collagenase digests of salt and acid-extracted bovine and sheep GBM and Englebreth-Holm-Swarm tumor similarly purified by gel filtration and reverse-phase high performance liquid chromatography. Two-dimensional gel analysis of these NC1 isolates revealed absence of the very cationic M28 monomers. Reactivity with antibodies eluted from diseased kidneys of sheep immunized with hGBM (Steblay nephritis) was compared with Goodpasture autoantibody reactivity by immunoblotting two-dimensional gels of hGBM NC1. We conclude that a very cationic M28 monomer (M28 ) found only in hGBM is the probable target in Goodpasture syndrome, that the epitope is present on most NC1 components from extracted and unextracted hGBM, and is exposed by urea denaturation which is enhanced by acid treatment. A weakly cationic M28 monomer (M28+) is present in GBM from other species and is the probable target in Steblay nephritis. Differential recognition of the two M28 components by these antibodies points to different genetic origins or possibly distinct post-translational modifications for these components. This is supported by their presence or absence in different species and tissues, as well as biochemical differences from the M24/26 monomers which presumably are derived from alpha 1(IV) and alpha 2(IV) collagen chains.
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PMID:Antibody specificity of human glomerular basement membrane type IV collagen NC1 subunits. Species variation in subunit composition. 378 34

We have studied the susceptibility of fibrils formed from fetal bovine skin type III collagen to proteolytic enzymes known to cleave within the helical portion of the molecule (vertebrate and microbial collagenase, polymorphonuclear elastase, trypsin, thermolysin) and to two general proteases of broad specificity (plasmin, Pronase). Fibrils reconstituted from neutral salt solutions, at 35 degrees C, were highly resistant to nonspecific proteolysis by general proteases such as polymorphonuclear elastase, trypsin, and thermolysin but were rapidly dissolved by bacterial and vertebrate collagenases at rates of 12-45 mol X mol-1 X h-1. In solution, type III collagen was readily cleaved by each of the proteases (with the exception of plasmin), as well as by the true collagenases, although at different rates. Turnover numbers determined by viscometry at 35 degrees C were: human collagenase, approximately equal to 1500 h-1; microbial (clostridial) collagenase, approximately equal to 100 h-1; and general proteases, 23-52 h-1. In addition it was shown that pronase cleaves type III collagen in solution at 22 degrees C by attacking the same Arg-Gly bond in the alpha 1(III) chain as trypsin. However, like other proteases, Pronase was rather ineffective against fibrillar forms of type III collagen. It was also shown that transition of type III collagen as well as type I collagen to the fibrillar form resulted in a significant gain of triple helical thermostability as evidenced by a 6.8 degrees C increase in denaturation temperature (Tm = 40.2 degrees C in solution; Tm = 47.0 degrees C in fibrils).
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PMID:Cleavage of bovine skin type III collagen by proteolytic enzymes. Relative resistance of the fibrillar form. 390 16

Glycoproteins were extracted from human atherosclerotic lesions by a phosphate buffered heparin solution and by 0.15 M NaCl, followed by sequential digestion of the tissue by collagenase and elastase. Proteins obtained from the extracts by fractional precipitation by (NH4)2SO4 at 40%, 60% and 100% saturation of the salt at pH 4.0 were analyzed for total protein and for fibronectin and laminin by immunodiffusion. Greater amounts of proteins were extracted from atherosclerotic lesions than from uninvolved tissue. The buffered heparin solution extracted several-fold more protein than 0.15 M NaCl. Fibronectin was found in most protein fractions from every extract, but the presence of laminin was noted only in the protein fractions precipitated at 40% saturation of (NH4)2SO4 in the extracts of the tissue by heparin.
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PMID:Identification of fibronectin and laminin in glycoprotein extracts of human aorta. 393 60

When grown in primary cell culture in the absence of neurons, muscle cells from a variety of species synthesize several forms of acetylcholinesterase (AChE), including the collagen-tailed A12 form. A12 AChE has been the subject of much study because it is thought to be a major functional enzyme form normally found in the basal lamina at the neuromuscular junction. In this paper, we show that muscle fibers derived from mouse embryos and neonates are also able to synthesize substantial percentages of their AChE as the A12 form when grown in vitro. This synthesis is modulated by a process associated with spontaneous muscle contractile activity since both total enzyme levels and the proportion of A12 AChE expressed on the cell surface are decreased when the cells are grown in the sodium channel blocker tetrodotoxin, which blocks muscle contraction. On the other hand, when the cells are treated with veratridine, which opens sodium channels, thereby mimicking one aspect of muscle contraction, their AChE levels are comparable to those of untreated cells. Although smaller in magnitude, these changes are similar to those seen in rat muscle cultures. A novel feature of mouse muscle cultures, not seen in those from rat and chick, is the presence of a secreted enzyme form that sediments in the same position as the cellular A12 form (when separated on sucrose density gradients containing high salt) and is also collagenase sensitive.
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PMID:Cellular and secreted forms of acetylcholinesterase in mouse muscle cultures. 405 99

In an effort to elucidate the nature of the collagen-platelet interaction, the effects of collagen modification on platelet aggregation have been studied. We have shown that purified rat skin (salt) soluble collagen is effective at about 20 nM in mediating platelet aggregation in human platelet-rich plasma. This concentration is somewhat greater than that required of several skin insoluble collagens (ca. 10 nM). Both the alpha1(I) and alpha2 chains from rat skin soluble collagen produced platelet aggregation, but only at concentrations of about 13 muM and 55 muM, respectively. In contrast, heat-denatured collagen and chains (e.g., 65 muM alpha1(I) and 160 muM alpha2) failed to induce platelet aggregation and to inhibit platelet aggregation by native collagen. Glycopeptides were prepared from human skin insoluble collagen by extended digestion with bacterial collagenase and trypsin, and were purified by gel filtration into two classes. One class of higher molecular weight contained sialic acid, glucosamine, galactosamine, fucose, mannose, galactose, and glucose, and the other of lower molecular weight consisted primarily of a mixture of galactose and galactosyl-glucose units O-glycosidically linked to hydroxylysine-containing peptides. We found that, after the residual tryptic activity contaminating the higher molecular weight fraction was inhibited, neither of the glycopeptide classes produced nor inhibited native human skin insoluble collagen-mediated platelet aggregation at the highest concentration examined (ca. 1-2 mg glycopeptide per ml of platelet-rich plasma). Highly purified samples of the hydroxylysyl glycosides, hydroxylysylgalactose and hydroxylysylgalactosylglucose (Hyl-Gal and Hyl-Gal-Glc, respectively), were prepared from human urine and labeled at galactose using galactose oxidase followed by reduction with tritiated borohydride. Binding studies with platelet-rich plasma showed that, at concentrations greater than 50 nM, Hyl-Gal gives apparent binding to platelets, but there was no evidence of Hyl-Gal-Glc binding to platelets at concentrations up to 250 nM. At concentrations several hundredfold higher than the equivalents present in the minimum concentration of rat skin soluble collagen required for platelet aggregation, neither Hyl-Gal (at 29 muM) nor Hyl-Gal-Glc (at 18 muM) caused platelet aggregation or inhibited platelet aggregation by native collagen. Also, at a concentration of 85 muM (which represents a concentration about two thousandfold higher than the equivalents in the minimum concentration of soluble collagen required for platelet aggregation) the Gal-Glc-containing 36 residue rat skin soluble collagen alpha1(I)cyanogen bromide #5 peptide had no platelet aggregating or inhibiting activity. Modification of at least 90% of the rat skin soluble collagen carbohydrate by mild periodate oxidation had no effect on the platelet aggregating activity. Human skin insoluble collagen was reacted with periodate under the same conditions, and this had no demonstrable effect on its ability to induce platelet aggregation. This indicates that the normal carbohydrate side chains of these collagens are not required for the platelet interaction that produces the release of ADP and other metabolic constituents and leads to aggregation.Thus, collagen-platelet interactions appear to involve at least two distinct binding sites on the platelet plasma membrane. One is a protein binding site that activates platelet aggregation and has high specificity and affinity for the collagen triple-helical fold or perhaps even for a particular amino acid sequence in the triple helix.
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PMID:Collagen-mediated platelet aggregation. Effects of collagen modification involving the protein and carbohydrate moieties. 435

The present study demonstrates that a granule fraction derived from human polymorphonuclear leukocytes possesses elastinolytic activity, and that the latter can be separated from the collagenase present in these cells. Properties of the human leukocyte elastase differ sufficiently from those of pancreatic elastases of different species as to suggest that the former enzyme is a distinct and separate entity. Thus, soybean trypsin inhibitor and salivary kallikrein inhibitor (Trasylol) fail to inhibit elastolysis by the pancreatic enzyme, but do inhibit the leukocyte elastinolytic agent. Elastolysis by human leukocyte granule extract does not show significant salt inhibition, whereas that catalyzed by pancreatic elastase is markedly reduced when ionic strength is increased to physiological levels. The leukocyte granule extract is at least 10 times more resistant to serum elastase inhibitor than is the purified pancreatic enzyme. Both enzymes show optimal elastolysis above pH 8.5, but the leukocyte factor still retains 50% of its maximal elastolytic activity at pH 6-7; whereas the activity of the pancreatic enzyme falls to 10% or less of its maximal value under the same conditions. The foregoing characteristics of the human leukocyte elastase suggest that it, rather than pancreatic (serum) elastase, may mediate pathological elastolysis during acute arteritis in man. In keeping with this suggestion, the present experiments also show that elastica staining of human arterial vessels is reduced by incubation of tissues with human leukocyte granule extracts in vitro.
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PMID:Mediators of inflammation in leukocyte lysosomes. IX. Elastinolytic activity in granules of human polymorphonuclear leukocytes. 530 65

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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PMID:Separation of the human leucocyte enzymes alanine aminopeptidase, cathepsin G, collagenase, elastase and myeloperoxidase. 612 35


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