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)

DNA synthesis of adult rat parenchymal hepatocytes alone in primary culture can be stimulated only by the addition of humoral growth factors to the culture medium. However, when parenchymal hepatocytes were cocultured with nonparenchymal liver cells from adult rats, their DNA synthesis was markedly stimulated in the absence of added growth factors or calf serum. DNA synthesis of parenchymal hepatocytes was not stimulated by conditioned medium from nonparenchymal liver cells and was greatest when the parenchymal cells were plated on 24-h cultures of nonparenchymal liver cells. A dead feeder layer of nonparenchymal cells was almost as effective as a feeder layer of viable nonparenchymal cells. These results suggest that the stimulation of DNA synthesis in parenchymal hepatocytes was not due to some soluble factors secreted by nonparenchymal liver cells but to an insoluble material(s) produced by the nonparenchymal liver cells. This insoluble material(s) was collagenase- and acid-sensitive, suggesting that it was a protein containing collagen. The effect of nonparenchymal liver cells was specific: coculture with hepatoma cells, liver epithelial cells, or Swiss 3T3 cells did not stimulate DNA synthesis in parenchymal hepatocytes. Added insulin and epidermal growth factor showed additive effects with nonparenchymal cells in the cocultures. These results suggest that DNA synthesis in parenchymal hepatocytes is stimulated not only by various humoral growth factors but also by cell-cell interaction between parenchymal and nonparenchymal hepatocytes, possibly endothelial cells. This cell-cell interaction may be important in repair of liver damage and liver regeneration.
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PMID:Stimulation of growth of primary cultured adult rat hepatocytes without growth factors by coculture with nonparenchymal liver cells. 365 56

Primary cultures of hepatocytes isolated by collagenase perfusion of adult rats were transformed by infection with adenovirus type 5 or transfection with adenovirus DNA. Total virion DNA or recombinant plasmid DNA containing the adenovirus E1A and E1B genes transformed hepatocytes at comparable frequencies. No foci of replicating hepatocytes were detected after transfection with a plasmid containing the E1A gene alone. The frequency of transformation by the adenovirus E1A and E1B genes was dependent on the composition of the culture medium. Transformation occurred at a low frequency when the transfected hepatocytes were maintained in a chemically defined medium (CDM), but the frequency was enhanced 8- to 10-fold when the cells were maintained in (i) serum-supplemented medium or (ii) CDM supplemented with epidermal growth factor. Cell lines derived from the adenovirus-transformed colonies of hepatocytes expressed adenovirus E1A and E1B RNAs. When hepatocytes were maintained in CDM supplemented with dimethyl sulfoxide and transfected with plasmids containing the E1A and E1B genes, it was possible to derive cell lines that retained the ability to express several liver-specific genes, including albumin, transferrin, hemopexin, and the third component of complement. The amount of albumin secreted per cell varied from 1 to 5 pg per cell per 24 h, and in one cell line it was below detectable levels by passage 9. Adenovirus-transformed hepatocytes were not tumorigenic when inoculated subcutaneously into neonatal syngeneic rats. We conclude that the adenovirus E1A and E1B genes are capable of transforming adult rat hepatocytes, a differentiated epithelial cell type.
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PMID:Transformation of differentiated rat hepatocytes with adenovirus and adenovirus DNA. 366 53

A serum-free primary cell culture system was used to examine the direct effects and interactions of mammogenic hormones and epidermal growth factor (EGF) on the growth of mouse mammary epithelial cells. Epithelial cells were isolated by collagenase dissociation followed by Percoll gradient centrifugation and cultured within collagen gels in a mixture of Ham's F-12-Dulbecco's Minimum Essential Medium (1:1) containing insulin (10 micrograms/ml), crude soybean lecithin, trace elements, trypsin inhibitor, and antioxidants. Progesterone (P; 10(-6) - 10(-8) M) or ovine PRL (1 microgram/ml), in the absence of EGF, stimulated the growth of cells from mature virgin mice 2- to 4-fold over that of controls cultured in basal medium only. P and PRL synergized in stimulating growth 3- to 17-fold. 17 beta-Estradiol (10(-7) - 10(-10) M) alone did not stimulate growth or synergize with P and/or PRL. This lack of growth stimulation by 17 beta-estradiol was also observed in medium containing a low concentration of insulin (0.1 microgram/ml). EGF (10 ng/ml) alone stimulated growth to the same extent as the combination of P and PRL. EGF at 1, but not 10, ng/ml when combined with P and PRL could additively stimulate growth. Cells from midpregnant mice were less responsive than cells from virgin mice to the growth-stimulating effects of the combination of P and PRL (2-fold stimulation at most), but not to EGF (3- to 6-fold stimulation). Corticosterone, deoxycorticosterone, and aldosterone, but not cortisol, could synergize with PRL in stimulating the growth of cells from mature virgin mice. However, only deoxycorticosterone could stimulate growth in the absence of PRL. These results suggest that PRL, P, and adrenal corticoids may directly stimulate the growth of mouse mammary epithelial cells. The physiologically relevent adrenal corticoids, corticosterone and aldosterone, only potentiate the stimulatory effect of PRL. The hormonal stimulation of growth in vitro can be obscured by an optimum concentration (10 ng/ml) of EGF. The relative growth responses to mammogenic hormones and EGF may depend on the degree of differentiation of the cells.
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PMID:Stimulation of mammary epithelial cell growth in vitro: interaction of epidermal growth factor and mammogenic hormones. 388 12

The effect of insulin (Ins) on luteal cell function was assayed and Ins binding was characterized in isolated collagenase-dispersed rat luteal cells. Ins stimulated progesterone production at concentrations over 10(-8) M, whereas human CG (hCG) produced maximal stimulation at 10(-11) M. Ins had an additive effect when it was added to the luteal cells in the presence of hCG in concentrations that produced submaximal stimulation. At 10(-9) M Ins the additive effect on hCG response became apparent (80% of maximal progesterone production). The maximal hCG response cannot be exceeded, even in the presence of high amounts of both hormones. hCG maximally stimulated cAMP production at 10(-10) M, whereas Ins neither stimulated cAMP production nor enhanced hCG response. Ins binding to luteal cells attained highest values after 30 min of incubation at 20 C. A curvilinear Scatchard plot was obtained and it was analyzed using a two-binding site model. The affinity constant values were 2.1 X 10(8) M-1 and 5.2 X 10(6) M-1 and the number of binding sites were 35,000 and 900,000 per cell, respectively. Bound Ins was not displaceable by hCG, human GH, human LH, epidermal growth factor, or ovine PRL. A protein moiety was essential for the receptor activity, since after trypsin digestion marked loss of binding was verified. Subcellular fractionation was performed and the highest binding was observed in the 105,000 X g pellet fraction. This study demonstrates that Ins binds specifically to rat luteal cells and stimulates steroidogenesis, adding support for the hypothesis that insulin acts directly upon the ovary.
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PMID:Insulin action and characterization of insulin receptors in rat luteal cells. 608 78

We have investigated the effect of epidermal growth factor (EGF) on collagen metabolism in clonal MC3T3-E1 cells, an osteoblastic cell line derived from newborn mouse calvaria. EGF significantly increased DNA synthesis, but decreased collagen production. We analyzed the amount of total collagen synthesis and degradation products of collagen together with the level of the enzyme responsible for extracellular collagen degradation, to investigate whether the decreased collagen production was due to a decrease in total collagen synthesis or to an increase in collagen degradation. Total collagen synthesis, determined by total hydroxyproline synthesized, was significantly decreased in cells cultured in medium containing EGF, but the amount of collagen degradation products and the level of animal collagenase activity were not increased. Analysis of the collagen type produced by the cells in the absence of EGF showed that 95% of the collagen recovered was type I and 3% was type III. The decreased level of collagen accumulated by cells cultured in the presence of EGF was explained only by the decreased rate of type I collagen synthesis. These results indicate that EGF selectively inhibits type I collagen synthesis in the clonal osteoblastic cell line, MC3T3-E1.
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PMID:Selective inhibition of type I collagen synthesis in osteoblastic cells by epidermal growth factor. 608 89

Rat parenchymal hepatocytes isolated with collagenase were cultured as monolayers in Williams medium E supplemented with calf serum. Freshly isolated cells showed very low activities of various liver functions, and they had to be cultured for 6-24 h to allow recovery of these functions. Insulin and dexamethasone greatly increased cell viability in primary. After culture for 24 h, these cells showed various liver functions as seen in vivo and responded well to various added hormones and amino acids. The concentrations of amino acids in the medium regulated synthesis of serum proteins and insulin stimulated lipogenesis, which in turn regulated synthesis of lipoproteins. Insulin also stimulated glycogen synthesis and the stimulation was parallel with the number of insulin receptors. Glucagon stimulated glycogenolysis and its stimulation involved the function of the cytoskeleton. Glucagon and dexamethasone induced various enzymes of amino acid catabolism, such as tryptophan oxygenase, tyrosine aminotransferase and serine dehydratase. These inductions were inhibited by insulin or catecholamine. The effect of catecholamine was due to its alpha-adrenergic action. The beta-action of isoproterenol was low in freshly isolated cells, but increased during culture of the cells. Acquirement of hormonal responses during neonatal development can be studied in this culture system. Mature hepatocytes in culture are usually quiescent, but when insulin and epidermal growth factor were added, DNA synthesis by the cells increased markedly and they showed density-dependent growth. In this culture system, serum could be omitted for 2 days when the dishes were coated with fibronectin without appreciable change of functions, but serum was needed for longer culture of the cells. A factor that increased cell survival was found in serum and in pituitary gland. These results show that hepatocytes in primary culture are a simple and useful system for studies of liver functions in vitro and related works were also reviewed.
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PMID:Use of hepatocytes in primary culture for biochemical studies on liver functions. 612 41

The effect of epidermal growth factor (EGF) on collagen degradation in clonal osteoblastic MC3T3-E1 cells was investigated by measuring the activities of dipeptidyl-aminopeptidase (DAP) and collagenase-like peptidase (CL-peptidase). EGF at concentrations of 2 to 50 ng/ml markedly increased DAP and CL-peptidase activities in the cells. The same concentrations of this factor significantly decreased the cellular hydroxyproline content. Since DAP and CL-peptidase are thought to be enzymes involved in collagen degradation, these results suggest that a physiological concentration of EGF stimulates collagen catabolism in osteoblasts.
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PMID:Effect of epidermal growth factor on dipeptidyl-aminopeptidase and collagenase-like peptidase activities in cloned osteoblastic cells. 632 93

Cells isolated from samples of human iliac crest and human femoral heads by collagenase digestion have been successfully cultured in Fitton-Jackson modified BGJb culture medium supplemented with penicillin (100 units/ml), streptomycin (100 micrograms/ml), and fetal calf serum (10%). Although only a low proportion of the cells survived the initial plating (less than 1%), cells established in culture were readily passaged. Examination of cells obtained at intervals during the collagenase digestion showed that the percentage of cells that attached increased with time of digestion. Rapid sample preparation of rat bone did not substantially increase the number of cells attaching. Thus, it seems unlikely that the low survival was due to loss of viability during sample transportation and preparation. Of several media tested BGJb supplemented with 10% fetal calf serum supported the best growth. Population doubling time averaged 104 hr. Cultured human bone cells were assayed for alkaline phosphatase activity using the azo dye method with naphthol ASTR phosphate as the substrate. A portion of the cells (19%) demonstrated high activity in all cultures examined regardless of the passage number of the culture. Autoradiography of cells exposed to [3H]thymidine showed incorporation of the label into both alkaline phosphate-positive and -negative cells. The stimulation of cell proliferation by growth factors was studied by determining the incorporation of [3H]thymidine into DNA. The specific skeletal growth factor from human bone stimulated cell proliferation several-fold with a half-maximal effect at 5 micrograms/ml. Insulin, epidermal growth factor, and a crude preparation of somatomedin C also stimulated cell proliferation.
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PMID:Characterization of cells isolated and cultured from human bone. 632 25

A simple three-enzyme treatment of collagenase, dispase and hyaluronidase on finely minced chick oviduct yields clumps of 50-150 cells. These cells attach to collagen-treated dishes and survive in culture for at least 2 weeks without subculturing. Oviduct cell cultures can also be induced to grow. Estradiol or epidermal growth factor (EGF) induce a 40% increase in cells in 4 days when cultures are grown in serum levels that do not support growth. Serum from estrogen-stimulated chicks promotes rapid cellular proliferation (doubling times of 1-2 days). Sera from estrogen withdrawn chicks, laying hen or horse do not support as rapid proliferation. The oviduct growth-promoting factors in serum from estrogen-stimulated chicks are not steroids or fibroblast growth factors (FGF). Removal of steroids from these sera by charcoal treatment or delipidization does not decrease the rate of growth. The addition of 1-100 nM estradiol does not increase a serum's ability to promote growth. Purified FGF or platelet-derived growth factor (PDGF) do not induce oviduct proliferation. These results were reproduced in oviduct cell cultures started from estrogen-stimulated and withdrawn chicks as well as laying hens. Thus the factors in serum from estrogen-stimulated chicks that promote rapid oviduct growth are induced by estrogen treatments in vivo, but do not seem to be only steroids.
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PMID:The chick oviduct in tissue culture. I. Initial characterization of growing primary oviduct tissue cultures. 633 49

Colloidal gold is an electron-dense, lyophobic colloid that readily forms a stable electrostatic interaction with a variety of macromolecules. Monodispersed colloids ranging from 3-150 nm in diameter can be produced to provide the researcher with flexibility in selecting the optimally sized probe. Gold labeling of antibodies and lectins has been extensively used to study surface antigens and cell components. Recently, the use of gold labeling has been extended to study receptor-ligand binding, enzyme-substrate reactions, and transcellular pathways. Published applications include gold labeling of metabolites (low-density lipoproteins), enzymes (DNAase and RNAase, RNA polymerase, thrombin, collagenase, elastase), hormones (insulin, epidermal growth factor, glucagon), circulating plasma proteins (asialoglycoprotein, alpha 2-macroglobulin, factor VIII-von Willebrand factor), and endotoxins (tetanus toxin, cholera toxin). This broad spectrum of applications emphasizes the versatility and usefulness of colloidal gold as a probe in areas of cell biology related to receptors, endocytosis, transport, and functions of proteins.
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PMID:Colloidal gold: a pluripotent receptor probe. 635 33

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