EC:3.4.24.3 - FACTA Search

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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)

Gelatin-specific protease activity from hamster lung fibroblasts and their culture media is described. The fibroblasts were derived from hamster lung explant cultures. The gelatin-specific protease activity is latent and seen only after dialysis of either cells or media. The enzyme activity shares many properties of previously reported gelatinases. The activity is inhibited by EDTA, cysteine, and dithioerythritol, whereas it is not inhibited by p-chloromecuribenzoate, N-ethyl maleimide, or phenylmethylsulfonyl fluoride. Of all substrates tested, activity was observed only against gelatin and not against other substrates tested. It was inactive toward collagen, elastin, and methemoglobin. This enzyme may have a role in the digestion of collagen that has been previously cleaved by mammalian collagenase.
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PMID:A gelatin-specific protease from hamster lung-derived cell cultures. 630 44

Collagenases are a family of metalloproteinases which may play a role in facilitating tumor cell invasion of the extracellular matrix. Tumor cells traverse two types of extracellular matrix: basement membranes and interstitial stroma, at multiple stages of the metastatic process. The matrix is a dense meshwork of collagen, proteoglycans, elastin and glycoproteins. Normally the matrix does not contain open spaces large enough for cell movement. Therefore numerous investigators have postulated that collagenolytic proteases, secreted by tumor cells or associated host cells, breakdown the extracellular matrix during tumor cell invasion. A large number of animal and human tumors have been shown to contain collagenase at a higher level than corresponding benign tissues. Separate collagenolytic metalloproteinases have been identified which degrade specific types of collagen. A basement membrane collagenolytic protease was shown to be elevated in a series of metastatic murine tumor cells. Immunologic studies using antibodies specific for collagenase have demonstrated that in vivo, tumor cells can produce collagenase. Therefore identification of collagenase in cultured lines of tumor cells is not an artifact of in vitro cultivation. In some cases, tumor cells may induce host cells to produce collagenase. The best evidence to date that collagenases actually play a role in invasion is derived from experiments in which natural collagenase inhibitors block tumor cell invasion of extracellular matrix in vitro.
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PMID:Role of collagenases in tumor cell invasion. 630 68

Studies were performed in vitro on cylindrical segments of 56 canine common carotid arteries, 32 human external iliac arteries, nine internal iliac arteries, and ten common iliac arteries, using purified elastase and purified collagenase. Treatment with elastase caused the canine vessels to dilate but to remain intact. Similar results were obtained with the human vessels, except that treatment with elastase caused only slight dilation. All canine and human vessels treated with collagenase ruptured. We concluded that wall integrity depends on intact collagen rather than elastin. Comparison between external iliac arteries and internal and common iliac arteries showed that the latter vessels exhibited dramatically greater dilatation and compliance changes after treatment with collagenase. This finding corresponds to the greater tendency of aneurysms to develop in internal and common iliac arteries.
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PMID:Elastolytic and collagenolytic studies of arteries. Implications for the mechanical properties of aneurysms. 632 26

Segments of dog carotid artery were studied in vitro at four longitudinal extension ratios, lambda z = 1.2, 1.4, 1.6, and 1.8, in randomized order. At each length, the pressure was elevated in steps to 200 mmHg or until the vessels buckled. Vessels were studied under control conditions and after treatment with moderate doses of degradative enzymes: 80 U/ml elastase for 90 min or 640 U/ml collagenase for 120 min. These doses were selected, following pilot studies, to degrade vessels but not to destroy them. Treatment with elastase (n = 24) reduced both longitudinal and circumferential stresses at all vessel lengths. Circumferential stress was reduced at pressures greater than 15 mmHg, the magnitude of effect increasing with both longitudinal and circumferential deformations. Longitudinal stress was reduced by a constant amount, irrespective of vessel length. Treatment with collagenase (n = 24) reduced circumferential stress when the vessels were distended by at least 60 mmHg; it did not reduce longitudinal stress. These data suggest that in intact cylindrical segments of dog carotid artery, subjected to physiological levels of strain, elastin bears a portion of both circumferential and longitudinal loads, whereas collagen bears a portion of only circumferential loads.
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PMID:Elastase, collagenase, and the biaxial elastic properties of dog carotid artery. 633 Dec 4

Cultured rabbit aortic smooth muscle cells produce elastic fibers and elastin in their extracellular matrix. Morphological analyses of elastic fibers indicate that they consist of two distinct components which play a major role in elastic early fiber formation namely, the amorphous component and the "microfibrillar" component. During elastogenesis, the early fiber consists of small bundles of filaments. Later, clearly distinguishable small conglomerates of amorphous material are found distributed among the bundles of filaments. The mature elastic fibers have large conglomerates of amorphous material with the filaments present within the interstices. Long term cultures of these cells in the second passage continue to accumulate elastin. The crosslinking amino acid isomers desmosine and isodesmosine, which are unique to insoluble elastin, increase with time in culture. Twenty-four hour pulses with 14C-proline followed by measurements of 14C-hydroxyproline in the collagenase resistant protein of the cell layer show that the synthesis of insoluble elastin is constant up to the 14 week period studied from the time the amorphous material becomes evident ultrastructurally.
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PMID:Formation of elastic fibers and elastin in rabbit aortic smooth muscle cell cultures. 645 51

Rabbits were fed with normal (group 1 and 2) and cholesterol rich diets (group 3 and 4) concomitantly to a daily peroral administration of 50 mg/kg procyanidolic oligomers (PCO) to groups 2 and 4. After 10 weeks, the cholesterol content of the blood serum and the excised aortic intima-media were significantly higher in groups 3 and 4 than in groups 1 and 2. The DNA, hydroxyproline, uronic acid contents were similar in aortic dry weight basis in all four groups. The intima-media samples were extracted successively with 0.15 M NaCl, 0.02 M sodium phosphate pH 7.4 (NaCl extract) and with 4 M guanidinium chloride, 0.05 M sodium acetate pH 5.8 prior (G1 extract) and following (G2 extract) hydrolysis of the collagen with collagenase. The cholesterol contents of G1 extracts were higher in groups 2 and 4 than in groups 1 and 3. The cholesterol content of aortic elastin increased with cholesterol feeding (group 3). With simultaneous administration of cholesterol and PCO the cholesterol content of aortic elastin in group 4 was significantly lower than in group 3. The uronic acid contents increased in G1 extracts and in the collagenase digest with PCO treatment of both normal and hypercholesterolemic rabbits. The ratio of dermatan-sulphate to chondroitin-sulphate decreased with hypercholesterolemia (group 3) and with PCO (group 2 and 4). The parallelism between increased cholesterol and uronic acid contents and modified glycosaminoglycan composition in G1 extract, indicate that the interaction of cholesterol with macromolecules of the aorta can be modulated by PCO. This drug modifies the extractibility of aortic cholesterol and glycosaminoglycans and reduces the association of cholesterol to elastin.
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PMID:The effect of procyanidolic oligomers on the composition of normal and hypercholesterolemic rabbit aortas. 649 5

Many workers have claimed to have isolated proteins which have been derived from the microfibrillar components of elastic tissue. Virtually all of these preparations have been derived from extracts made with strong solutions of guanidinium chloride (GuHCl) under reducing conditions following Ross and Bornstein (1969). The products have ranged from heterogeneous mixtures of proteins to discrete glycoproteins. In no case has identity between an individual protein and the elastin-associated microfibrils been confirmed by immunoelectron microscopy. We have undertaken a detailed re-examination of the extractability of elastin-associated microfibrils and of the composition of the extracts from foetal bovine nuchal ligament. Finely homogenized samples were subjected to a series of extractions (including cyclical treatments with GuHCl and purified bacterial collagenase) in the presence of inhibitors of protease activity. Under these conditions it has been shown that--(i) microfibrils were removed progressively by GuHCl, throughout the extraction schedule, without the need for reduction; (ii) all remaining microfibrils were removed by reductive GuHCl extraction; (iii) the product from this reductive extraction consisted of a heterogeneous mixture of proteins including several glycoproteins; (iv) a major antigenic constituent of the mixture of proteins localized to elastin-associated microfibrils, as shown by immunoelectron microscopy. It is concluded that, while reductive GuHCl extracts do contain components with antigenic activity that is localized on elastin-associated microfibrils, they have many non-microfibrillar components. We stress that claims that a macromolecule is microfibrillar must be substantiated by immunoelectron microscopy.
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PMID:Microfibrillar protein from elastic tissue: a critical evaluation. 651 66

CL glycoprotein is a collagen-like glycoprotein which we have recently isolated from rapidly growing fetal bovine, elastin-rich tissues. This protein has a molecular weight of approximately 140,000 daltons, contains hydroxyproline and hydroxylysine and is digested by highly purified collagenase to yield three large polypeptides. A specific antibody has been developed against this protein and has been used for immunofluorescence microscopy to study the distribution of CL glycoprotein in a range of tissues. It has been shown that the antibody localized in the intercellular matrix of nuchal ligament and aorta, of the non-elastic Achilles tendon and in complex tissues such as kidney, lung, skin and spleen. The antibody also localized to the surface of aortic smooth muscle cells-presumably to the basement membrane, but did not bind to other basement membranes, including the vascular subendothelial basement membrane. The pattern of distribution was similar in adult bovine tissues. As this antibody showed no avidity for elastic tissue elements, it is most unlikely that CL glycoprotein is a constituent of elastin-associated microfibrils. When the pattern of the CL glycoprotein distribution within the tissues was studied, it was found that, apart from its concentration around vascular smooth muscle cells, CL glycoprotein exhibited considerable overlap in distribution with the interstitial collagens. On the basis of these observations and having regard to its biochemical characteristics, it is proposed that CL glycoprotein has a structural role inter-linking interstitial components to one another and to vascular smooth muscle cells.
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PMID:Distribution of CL glycoprotein in tissues: an immunohistochemical study. 666 10

The preparation and potential clinical use of biodegradable microarterial grafts from rat aorta were investigated. Trypsin treated arterial segments were coated with heparin or chondroitin sulfate to reduce thrombogenicity. The samples were crosslinked with formaldehyde vapors at 4 degrees C. 50 - 100 microgram glycosaminoglycans taken up per mg aorta dry weight were resistant to washing with water for 24 hrs. The covalent crosslinks introduced by formaldehyde and resistance of the grafts to proteolytic degradation. The treated grafts were implanted on 70 rats in an infrarenal aortic position. The permeability of the aldehyde crosslinked prosthesis after 21 days by patency test was lower than the patency ratio measured with fresh autologous grafts. The glycosaminoglycans associated with the prosthesis improve the patency of the crosslinked grafts by about 48%. The resistance to bacterial collagenase of the excised grafts decreased with progressing time of implantation. In the permeable prosthesis and in the contiguous aorta, elastolytic activity was demonstrated by radial diffusion in elastin-agar gels. The grafts removed after 21 days of implantation were surrounded with scar tissue. In contrast to fresh aorta, the macromolecular hydroxyprolin in the scar was readily solubilized with pepsin. The presence of the fragmented elastin and collagen fibers in the excised graft is in favour of their resorption "in vivo".
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PMID:Biodegradable arterial prosthesis from rat aorta. 677 72

Cultured pulmonary artery smooth muscle cells derived from the medial vessel layer of weanling rabbits were grown in the presence or absence of sodium ascorbate. The connective tissue elements insoluble elastin and collagen were identified and quantified. Formation and accumulation of alpha-aminoadipic acid gamma-semialdehyde (allysine) and the intermolecular cross-links desmosine (Des), isodesmosine (Ides), and aldol condensation product (Aldol) were evaluated from [14C]lysine pulse-chase experiments. [14C]Des, [14C]Ides, peptide-bound [14C]lysine, [14C]allysine, and [14C]Aldol were determined from amino acid analysis. The latter two components were determined after reduction with NaBH4. [14C]Proline conversion to hydroxy[14C]proline and collagenase susceptibility were used to identify and quantify collagen synthesis. Ascorbate dramatically affects insoluble elastin synthesis, accumulation, and cross-link formation. Cells grown in the presence of ascorbate synthesize and accumulate significantly less insoluble elastin than non-ascorbate cultures. Those elastin molecules which do become incorporated into the extracellular matrix in the presence of ascorbate contain a slightly elevated content of hydroxyproline and lysine and, most importantly, are turned over more rapidly.
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PMID:Effects of ascorbate on insoluble elastin accumulation and cross-link formation in rabbit pulmonary artery smooth muscle cultures. 681 21

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