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)

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

Mouse hepatocytes were isolated by collagenase perfusion, maintained in non-proliferating monolayer culture and shown to retain liver cell function as judged by gluconeogenesis for 15 to 18 h. Such cells could be infected with and support the replication of a virulent strain of ectromelia virus. Virus antigen and characteristic cytoplasmic 'B'-type poxvirus inclusion bodies were demonstrated by immunofluorescence in virtually all cells. By electron microscopy it was shown that 'B'-type inclusions were the site of virus replication, and that the biogenesis of ectromelia virus and ultrastructural changes in hepatocytes were similar to those observed in infected mouse livers. Early cell rounding effects, a normal characteristic of poxvirus infections in tissue culture cells, were not seen in ectromelia-infected hepatocytes, although late degenerative changes did occur. Pulse-labelling of hepatocyte cultures with [35S]methionine showed that ectromelia virus inhibited the rise in protein synthesis seen in controls and imposed a gradual decline in host protein synthesis to an extent and at a rate significantly different from that in mouse L929 cells. Gluconeogenesis was inhibited by ectromelia virus infection of hepatocytes.
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PMID:Ectromelia virus-induced changes in primary cultures of mouse hepatocytes. 404 29

1. The preparation of cell suspensions by treatment of chick embryo hearts with collagenase at various stages of development is described. 2. Measurements of oxygen consumption, incorporation of labelled leucine into protein and accumulation of labelled alpha-aminoisobutyric acid against a concentration gradient indicated a long-lasting viability of the isolated heart cells in vitro; a satisfactory preservation of subcellular structures, including plasma membrane, was assessed by electron-microscopic examination. 3. The rate of alpha-aminoisobutyric acid accumulation by cardiac cells isolated from hearts at different stages of embryological development decreased with aging; insulin stimulated the intracellular accumulation of this amino acid analogue. 4. Insulin increased the uptake by isolated heart cells of several (14)C-labelled naturally occurring amino acids; however, the fraction of amino acid taken up by the cells that was recovered free intracellularly, and therefore the concentration ratio (between intracellular water and medium), was enhanced by the hormone only with glycine, proline, serine, threonine, histidine and methionine. When isolated heart cells were incubated in the presence of a mixture of labelled amino acids, the addition of insulin increased the disappearance of radioactivity from the medium. 5. The general pattern of amino acid transport (in the absence and in the presence of insulin) in isolated cardiac cells was similar to that found in intact hearts, suggesting that the biological preparation described in this paper might be useful for studies of cell permeability and insulin action.
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PMID:Amino acid uptake in isolated chick embryo heart cells. 430 8

A collagenase secreted by tadpole (Rana catesbiana) back-skin explants in culture has been purified to electrophoretic homogeneity by successive chromatography on sulfopropyl Sephadex, Sephacryl S-200, collagen Sepharose, and heparin Sepharose. The purified enzyme has a molecular weight of approximately 49,000 and an isoelectric pH of 5.0. The enzyme is more active versus soluble collagen than reconstituted fibrils and exhibits very low activity against gelatin (specific activities: Type I collagen, 7660 units/mg; Type I gelatin, 66 units/mg). The collagenase obeys simple Michaelis-Menten kinetics using soluble type I collagen (Km), 0.35 microM; Vm, 1380 units/mg, at 25 degrees C and pH 7.4) and is inhibitable by chelating agents specific for transition metals. Methylene blue catalyzes the photoinactivation of this collagenase, suggesting the presence of essential histidine, tryptophan, tyrosine, or methionine residues.
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PMID:Purification and characterization of tadpole back-skin collagenase with low gelatinase activity. 609 65

The amino-terminal propeptide from type II procollagen was isolated from organ cultures of sternal cartilages from 17-day-old chick embryos. The procedure provided the first isolation of the propeptide in amounts adequate for chemical characterization. The propeptide had an apparent molecular weight of 18000 as estimated by gel electrophoresis in sodium dodecyl sulfate. It contained a collagen-like domain as demonstrated by its amino acid composition, circular dichroism spectrum, and susceptibility to bacterial collagenase. One residue of hydroxylysine was present, the first time this amino acid has been detected in a propeptide. The peptide contained no methionine and only two residues of half-cystine. Antibodies were prepared to the propeptide and were used to establish its identity. The antibodies precipitated type II procollagen but did not precipitate type II procollagen from which the amino and carboxy propeptides were removed with pepsin. Also, they did not precipitate the carboxy propeptide of type II procollagen. The data demonstrated th at the type II amino propeptide was similar to the amino propeptides of type I and type III procollagens in that it contained a collagen-like domain. It differed, however, in that it lacked a globular domain as large as the globular domain of 77-86 residues found at the amino-terminal ends of the pro alpha 1 chains of type I and type III procollagens.
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PMID:Isolation and partial characterization of the amino-terminal propeptide of type II procollagen from chick embryos. 617 39

Cerebral endothelium is being studied rather extensively in tissue culture, but no reports are available describing the tissue culture of cerebral microvascular smooth muscle. The present paper describes for the first time the isolation and culture of non-neoplastic mouse cerebral vascular smooth muscle. Microvessels from a dounce homogenate of mouse brain are plated onto plastic culture dishes in Dulbecco's modified Eagle media plus 20% fetal bovine serum and treated briefly with collagenase. Cells migrate from vessels and proliferate sufficiently to be transferred out of primary culture in 2 to 3 wk. Light microscopy reveals generally broad, polygonal cells that grow collectively in a "hill and valley" pattern. By transmission electron microscopy the cells possess many characteristics of smooth muscle: basal laminas, clusters of pinocytotic vesicles, and bundles of thin filaments. Several ill-defined cell-to-cell junctions are also present. Isoelectric focusing and sodium dodecyl sulfate-electrophoresis of cellular proteins on polyacrylamide gels after pulse labeling cultures with [S-35]methionine demonstrate that these cells actively synthesize a smooth-muscle-specific isoactin, alpha-actin. The identity of alpha-actin is confirmed by analysis of NH2-terminal peptides after actin digestion with trypsin and subsequent peptide cleavage with thermolysin. Both their morphology and active synthesis of alpha-actin strongly suggest that these cells are of smooth-muscle origin. Future studies of their metabolism and interactions with endothelium and astrocytes should provide a better understanding of the cerebral microcirculation.
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PMID:Cerebral microvascular smooth muscle in tissue culture. 623 74

Pure collagenase (clostridiopeptidase A, EC 3.4.24.3) having a molecular weight of 70 000 was obtained from the culture medium of Clostridium histolyticym by a combination of ultrafiltrations, molecular sieve, affinity and hydrophobic chromatography. The value of its specific activity is the highest of those described previously but 6-times lower than that of the collagenase from Achromobacter iophagus (EC 3.4.24.8). Its amino acid composition differs from previous data, namely by the presence of cysteine, methionine, tryptophan and O-phosphoserine residues. In contrast to Achromobacter collagenase it does not dissociate in subunits during the deactivation by EDTA or LiCl/glycine buffer at pH 10.5. Existence of multiple forms of Clostridium collagenase previously described is discussed as being due to autolysis of a single molecular species or to a different degree of phosphorylation.
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PMID:Chemical characterization of the homogeneous collagenase from Clostridium histolyticum. 626 87

We used affinity chromatography to isolate a specific laminin-binding protein from murine fibrosarcoma cells. These cells bind exogenous laminin to their surface with high affinity (Kd = 2 X 10(-9)M for laminin) with approximately 5 X 10(4) sites per cell. Laminin affinity chromatography of [35S]methionine-labeled cell extracts produced two distinct proteins. One was identified as Type IV (basement membrane) collagen based on its migration pattern on SDS gels and bacterial collagenase sensitivity. The other protein, which migrates as a single band or closely spaced doublet on reduced SDS gels, has a reduced molecular weight of 69,000. Using a nitrocellulose filter disk assay, we found that the latter protein specifically bound 125I-laminin with the same high affinity (Kd = 2 X 10(-9)M for laminin) as did intact fibrosarcoma cells. By iodinating intact cells, we demonstrated that this laminin-binding protein is on the cell surface. We conclude that this protein with reduced molecular weight of 69,000 is a subunit or component of a larger cell surface receptor protein for laminin in this fibrosarcoma model. This laminin receptor may mediate the interaction of the cell with its extracellular matrix.
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PMID:Isolation of a cell surface receptor protein for laminin from murine fibrosarcoma cells. 630 2

The incorporation of methionine, lysine, and leucine into protein was studied in Ca2+-depleted and Ca2+-restored preparations of C-6 glial tumor cells in minimal medium. Although incorporation proceeded at linear rates in both preparations for more than 1 h and into the same spectrum of proteins, Ca2+-restored cells incorporated amino acid 5- to 10-fold more rapidly than Ca2+-depleted cells. Addition of approximately 200 microM Ca2+ in excess of chelator was required to achieve maximal rates of incorporation in Ca2+-depleted preparations. Stimulation by Ca2+ was rapid in onset (several minutes) and slowly reversible by chelator. Ca2+ was uniquely potent and specific among physiologically occurring cations in conferring such stimulation. Stimulation of amino acid incorporation by Ca2+ occurred over a broad range of pH and osmolarities and was facilitated by Mg2+. The effects of Ca2+ in stimulating amino acid incorporation were not traceable to changes in cAMP metabolism, amino acid uptake, protein catabolism, cell ATP or GTP content, or aminoacylation of transfer RNA. Actinomycin D (1 microgram/ml) did not block the stimulatory effects of Ca2+ although puromycin and cycloheximide did. The stimulatory effects of Ca2+ on protein synthesis were not restricted to C-6 in minimal medium. Protein synthesis was reduced by ethylene glycol bis(B-aminoethyl ether)-N,N,N',N'-tetraacetic acid 40 to 75% in C-6 glioma, GH3 pituitary tumor, PC-12 adrenal tumor, N2A neuroblastoma, and HeLa cells incubated under simulated growth conditions with various enriched media and sera. Ca2+-depleted S49 lymphoma, CHO ovarian tumor, and normal, dispersed chicken embryo cells in enriched medium responded to Ca2+ restoration with increased rates of protein synthesis as did collagenase-dispersed normal rat liver cells in minimal medium. Protein synthesis in rabbit reticulocyte lysates was also inhibited by Ca2+-selective chelators or by Ca2+ removal by parvalbumin affinity chromatography and the inhibition was reversed by Ca2+. These findings are consistent with the existence of a Ca2+ requirement in the translational phase of protein synthesis in eukaryotic cells.
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PMID:Identification of a Ca2+ requirement for protein synthesis in eukaryotic cells. 631 27

Digestion of the cuticle collagen from the annelid Nereis virens with Clostridium histolyticum collagenase yields a native, collagenase-resistant fragment (CCRF) of the molecule with an Mr of about 900,000 (Kimura and Tanzer, J. Biol. Chem. 252: 8018, 1977). We have produced 940 nm long, SLS-crystallites from the collagenase-resistant fragment; the SLS pattern matches a region at one end of the 2,400 nm SLS obtained from intact cuticle collagen. Upon denaturation, the fragment yields two subunits, CCRFA and CCRFB, which can be separated by SDS polyacrylamide gel electrophoresis or by chromatography on DEAE-cellulose; the subunits are in about a 2:1 ratio. The subunits have amino acid compositions which are similar to those of the original A and B chains, although the fragments have a higher content of acidic residues and a lower content of hydroxyl residues. Previous studies of the intact B chain have shown that there is about one methionine in the chain, and that it is located near the COOH terminus. The CCRFB subunit also contains about one methionine, indicating that CCRFB is probably derived from the COOH end of the intact molecule. Based on these composite data, we have provisionally defined the amino and carboxyl ends of the cuticle collagen SLS and provide additional evidence that the molecule is a heteropolymer with the formula A(B)2.
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PMID:Characterization of a large fragment from annelid cuticle collagen and its relationship to the intact molecule. 632 Oct 95

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