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)

The characteristics of normal mammary epithelial cells derived from Lewis and Sprague-Dawley rats and N-Ethyl-N-Nitrosourea (ENU)-induced mammary gland adenocarcinoma cells derived from Sprague-Dawley (CD) and Fisher (CDF) rats and grown in culture were compared. After collagenase treatment, the rat mammary epithelial cell aggregates were placed in a hormone-supplemented medium. The normal mammary epithelial cells (NE) attached to the surface of the dish within 50 hours, whereas the mammary adenocarcinoma cells (MA) attached within 24 hours and grew as cell multilayers. After the colonies of NE and MA cells became confluent, the culture system entered a steady state in which the cells from the upper layer were shed into the medium. The rate of proliferation and squame detachment in confluent cultures was increased by the presence of epidermal growth factor (EGF). Rhodanile blue staining and transmission electron microscopy showed that the shed cells were partially keratinized. In addition, cultured MA (but not normal) cells were able to grow in soft agar and form tumors when inoculated into appropriate hosts. The opposite was true in each case for the mammary adenocarcinoma cells. Karyotypes of normal and neoplastic rat epithelial cells revealed a hypodiploid modal number of chromosomes.
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PMID:Characteristics of normal rat mammary epithelial cells and N-ethyl-N-nitrosourea-induced mammary adenocarcinoma cells grown in culture. 241 45

The motility of murine splenic lymphocytes stimulated nonspecifically by recombinant interleukin 2 (RIL-2) was studied in a three-dimensional collagen-gel system. Nonadherent BALB/c splenic lymphocytes were cultured in medium containing Cetus RIL-2 (700 to 1000 units/ml) or excipient control. They were then allowed to locomote randomly for 16 to 18 h into slabs of type I rat tail collagen gel. The gels were digested with collagenase, and total lymphocyte populations and motile subpopulations were collected and compared with respect to their lymphokine-activated killer activity (measured as 4-h cytotoxicity against the natural killer-resistant mammary adenocarcinoma line 410.4), their natural killer activity (measured as 4-h cytotoxicity versus lymphoma YAC-1), and their subset distribution (defined by immunofluorescence). Some of the slabs were not digested but fixed for measurement of leading-front distance. RIL-2-stimulated lymphocyte populations displayed greater motility than unstimulated populations; the mean leading front distance was 2.4 times greater, and the percentage of cells exhibiting motility was approximately doubled. The most motile RIL-2-stimulated cells, however, were not the most tumoricidal. Motile subpopulations displayed approximately 25 to 60% lower lymphokine-activated killer activity than did the total populations from which they were derived. Natural killer activity followed a similar pattern. Motile subpopulations contained a lower proportion of asialo-GM1+ and T-null cells than did total populations and a higher proportion of L3T4+ cells. Chemokinetic stimulation with alpha-interferon increased overall motility, but the lymphokine-activated killer activity of the motile subpopulation was still lower than that of the total population. Lymphocyte motility is important in the infiltration of tumors and other inflammatory lesions. The results indicate that the most tumoricidal lymphocytes in RIL-2-stimulated populations may not be the best tumor infiltrators, and that the tumoricidal activity of circulating lymphocytes may be a misleading indicator of the effectiveness of immunotherapy.
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PMID:Motility and tumoricidal activity of interleukin-2-stimulated lymphocytes. 245 69

Despite adequate locoregional control, colorectal metastasis to the liver remains a significant cause of death. Resection of hepatic metastasis improves five-year survival 18% to 34%. A study of the impact of 40% partial hepatectomy on cytokine production in the liver was undertaken. Nonparenchymal liver cells (NPCs) were prepared by collagenase perfusion and metrizamide gradient from partially hepatectomized and laparotomized control C57BL/6Ros mice. Nonparenchymal cell from partially hepatectomized mice compared with laparotomized mice showed a twofold to threefold increase in interferon (IFN) activity. Both interferon alpha/beta and supernatants from cultured NPCs of partially hepatectomized mice suppressed the proliferation of liver-derived MCA-38 colon adenocarcinoma cells in vitro. This tumor has been shown to metastasize to the liver of C57BL/6Ros mice. The production of various cytokines by NPCs induced by partial hepatectomy may provide a possible antimetastatic mechanism.
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PMID:Partial hepatectomy augments the liver's antitumor response. 246 82

The activity of type IV collagenase, which enables tumor cells to degrade collagen type IV found in the subendothelial basement membrane, has been correlated with the metastatic potential in several tumor types, including the rat 13762NF mammary adenocarcinoma cell line and its clones. In this study, we examined whether all-trans-retinoic acid (all-trans-RA) and other retinoids, which exhibit antitumor activity in vitro and in vivo, affect the collagenolytic activity of metastatic rat 13762NF mammary adenocarcinoma cells. Cells of the highly metastatic lung-colonizing clone MTF7.T35.3, derived from the 13762NF cell line, were treated for 3 days with 0.1, 1, or 10 microM all-trans-RA, harvested, and seeded on [3H]proline-labeled extracellular matrix deposited by cultured rat lung endothelial cells or on a film of purified [3H]proline-labeled type IV collagen. The amount of radioactivity released into the medium during the subsequent 24 to 72 h was measured, and it was found that all-trans-RA treatment inhibited degradation of extracellular matrix and type IV collagen by 50 to 60%. This effect was observed whether the cells had been treated with all-trans-RA in serum-free medium or in medium supplemented with heat-inactivated or acid-treated fetal bovine serum. The growth of the cells was not inhibited under these conditions, except after treatment with 10 microM all-trans-RA in serum-free medium. The reduction in collagenolytic activity was observed in viable cells as well as in conditioned medium. A 24-h exposure of cells to all-trans-RA was sufficient to cause a 30% decrease in the collagenolytic activity, and this inhibitory effect was reversible. The direct addition of all-trans-RA to conditioned medium had no effect on secreted collagenase activity. The apparent molecular weights of the collagenolytic enzymes were determined by electrophoresis of cell extracts and concentrated conditioned medium in type IV collagen-embedded polyacrylamide gels followed by renaturation and activation of the enzymes within the gels. Two major type IV collagenolytic metalloproteinases exhibiting molecular weights of 64,000 and 88,000, respectively, were detected by this method. These two enzymes were also found to have specificity for gelatin. The Mr 64,000 enzyme could be extracted from viable cells (presumably from the cell membrane) by 2% 1-butanol. Treatment with all-trans-RA decreased the level of these enzymes in the cellular, cell membrane, and conditioned medium compartments.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Inhibition by retinoic acid of type IV collagenolysis and invasion through reconstituted basement membrane by metastatic rat mammary adenocarcinoma cells. 253 32

The spread and invasion of tumor cells into host tissues are associated with the release of elevated levels of collagenolytic activity of both host and tumor cell origins. However, the mechanisms of regulation of the enzyme activity is still unresolved. Histological examination of human and animal tumors revealed morphological changes in stromal fibroblasts and mast cells at the tumor periphery. Numerous mast cells appeared at microfoci along the tumor: host tissue junction and mast cell degranulation were associated with collagenolysis. In vitro studies, using rat mammary adenocarcinoma and human lung adenocarcinoma cells, showed that both tumor cells and host fibroblasts participate in matrix degradation. Tumor-associated stromal fibroblasts released higher levels of enzyme activity than normal fibroblasts and were more responsive to stimulation by tumor-conditioned media and soluble mast cell products. Host fibroblasts appear to be heterogeneous populations of responsive and nonresponsive subpopulations based on their response to tumor- or mast-cell-mediated stimulation of collagenase release. Fibroblast subpopulations were obtained by density fractionation of serum-deprived, synchronized confluent fibroblasts on discontinuous Percoll gradient. Density-fractionated fibroblast subpopulations differed in their response to stimulation by mast cell products and tumor-cell-conditioned media. The stimulatory activity of tumor-cell-conditioned media also varied as a function of the metastatic potential of the tumor cells. The data suggest that cellular interactions between tumor cells and select subpopulations of host fibroblasts at the tumor periphery play a key role in host tissue degradation. However, heterogeneity of stromal fibroblasts may determine the site and extent of the tissue damage at foci of tumor invasion.
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PMID:Heterogeneity of fibroblast response in host-tumor cell-cell interactions in metastatic tumors. 283 Dec 42

The collagenolytic responses of normal rat skin fibroblasts (NRS-F) and rat mammary MTLn3 tumor-derived fibroblasts (Ln3-F) were examined following exposure to rat macrophage (M phi-CM)- and lymphocyte (LYM-CM)-conditioned culture medium and/or tumor cell-conditioned medium. Alveolar, intratumoral, and peritoneal macrophages were prepared from mammary adenocarcinoma-bearing rats, as were the peritoneal lymphocytes. Incubation of the two fibroblast populations with LYM-CM produced a 10- and 7-fold stimulation of collagenolytic activity by NRS-F and Ln3-F cells, respectively. Similarly, exposure of NRS-F and Ln3-F fibroblasts to peritoneal M phi-CM produced a 7- and 4-fold increase in the expression of collagenolytic activity, respectively. Conditioned medium from MTLn2 tumor cells also stimulated the collagenolytic expression of both fibroblast populations. Incubation of tumor-associated Ln3-F or NRS-F fibroblasts with MTLn2 tumor cell-conditioned medium enhanced fibroblast collagenolytic activity approximately 20 and 17 times, respectively. When M phi-CM and LYM-CM were further "conditioned" by a subsequent incubation with MTLn2 tumor cells, each stimulated the expression of collagenolytic activity by both fibroblast populations and this was especially pronounced (120-fold increase) in the response of Ln3-F to LYM-CM further conditioned by MTLn2 tumor cells. The conditioned media derived from M phi, LYM, and MTLn2 tumor cells with or without trypsin activation contained low levels of interstitial-type collagenolytic activity which made no significant contribution to the collagenolytic activity of the stimulated fibroblasts. Some collagenase inhibitory activity, however, was detected in the M phi-CM, suggesting that the actual stimulation of collagenolysis by host fibroblasts is underestimated. We conclude that macrophages, lymphocytes, and tumor cells all have the potential to produce stimulatory factor(s) which enhance the collagenolytic activity of normal fibroblast populations. This study provides further evidence of the multifactorial control of collagenase production and supports the concept that host cell-tumor cell interactions can enhance the expression of collagenolytic enzymes.
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PMID:Macrophage and lymphocyte potentiation of syngeneic tumor cell and host fibroblast collagenolytic activity in rats. 284 62

To clarify interactions between carcinoma and mesenchymal cells, we examined the extracellular matrix-substance remaining on culture dishes after confluent growths of gastric carcinoma cells were removed with EDTA. The matrix synthesized by poorly differentiated adenocarcinoma cells (cell lines KATO-III and MKN-45) cultivated in serum-free medium has a fibroblast (cell line WI38)-attachment activity, which is not detected in the matrix synthesized by a well differentiated adenocarcinoma (cell line MKN-28). This activity was not observed in KATO-III-matrix extracted with 6 M urea, but could be detected in a 1% SDS extract from the remaining matrix on the culture dishes after 6 M urea extraction. The activity was abolished by treatment with pronase (16 micrograms/ml), trypsin (0.005%) or alkali, but was unaffected by collagenase (80 micrograms/ml, 4 h) or chondroitinase ABC (1 U ml, 1 h). It is conceivable that the fibroblast-attachment activity of the matrix produced by poorly differentiated adenocarcinoma cells is related to the proliferation of interstitial connective tissue in vivo.
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PMID:Extracellular matrix of cultivated, poorly differentiated human gastric adenocarcinoma cells promotes attachment and spreading of mesenchymal cells. 290 Nov 69

Collagenases and other neutral proteases in tumors may facilitate tumor extension, invasion, and subsequent metastasis. We report the effects of vitamin A and dexamethasone, known inhibitors of collagenase production in vitro, on the collagen metabolism of mouse mammary adenocarcinoma and its capsule, borne by C3H/HeJ mice. The weight of the capsule was about 4% of the tumor, yet the total collagen content of the capsule was about 10-fold greater than that of the tumor tissue; tumor cells had no detectable collagen. With tumor growth, the collagenase and other neutral protease activities were increased in the tumor tissue; a negative correlation existed between collagenase activity and collagen content of the capsule. The protease activities of the tumor borne by vitamin A-treated hosts were about 50% lower than those of the controls; this coincided with a slight increase in the collagen content of the capsule. In contrast, the collagen content of the capsule borne by dexamethasone-treated hosts was 50% less than that of the controls; the protease activities were similar to the controls and occurred with tumor invasion and metastasis. Results suggest that the collagen metabolism of the capsule may be an indicator of proteolytic events within the tumor and the metastatic potential of the tumor that, in turn, suggests the possibility of preventing metastasis by inhibiting the production of collagenases and other neutral proteases, thereby localizing the tumor cells within the capsule. Vitamin A could be used for that purpose.
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PMID:Effects of vitamin A and dexamethasone on collagen degradation in mouse mammary adenocarcinoma. 298 67

The transplantable hormone-responsive rat mammary adenocarcinoma 13762NF was dissociated with collagenase and hyaluronidase. Cells were cloned directly or lines were established from mass cultures and cells from these lines were cloned. Clones differed in cellular morphology, colony morphology on plastic or in collagen gel, growth rate, growth response to hormones, and hormone receptor levels. Growth response to prolactin, estradiol, progesterone, cortisol, and epidermal growth factor (EGF) was determined by culturing the cells within collagen gel and using a serum-free medium base of DME/F12 (1:1) with insulin, linoleic acid, and BSA. The clones varied in their hormone responses, with all 20 of the clones tested responding to cortisol in combination with EGF. Some clones would respond to EGF, cortisol, or progesterone when used alone. None of the clones tested could be stimulated by prolactin or estradiol. Receptor levels for estradiol, progesterone, glucocorticoids, and EGF were assessed in 3 selected clones differing in their hormone responsiveness. Receptor levels appeared to correlate with hormonal sensitivity. Selected clones transplanted into female F344 rats produced carcinomas with histopathologies similar to the original tumor.
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PMID:Heterogeneity in the hormonal responsiveness of clones derived from the 13762NF rat mammary tumor. 300 10

The role of collagenolytic enzymes in tumor invasion and metastasis has been emphasized, but the source of enzyme activity has remained unclear. Degradation of stromal connective tissue is a common feature of invasive neoplasia, and host-tumor cell interactions are probably important for localized collagenolysis. We have examined the role of mast cells in malignant cell invasion using cells derived from the rat mammary adenocarcinoma 13762NF. Histologic studies have shown increased numbers of mast cells at the zone of tumor invasion. Mast cell products and conditioned medium from such cells stimulated the production of collagenolytic enzymes by stromal fibroblasts as well as certain subpopulations of tumor cells in vitro. The tumor cell response to mast cell-mediated stimulation of collagenolysis appears to be related to the metastatic potential of the tumor cell. A subpopulation of host fibroblasts derived from the invading tumor zone was also found to be more responsive to mast cell factors than normal fibroblasts, as judged by collagenase production. Thus the mast cell has the potential to induce collagenolytic activity from both host fibroblasts and tumor cells.
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PMID:Host-mediated effectors of tumor invasion: role of mast cells in matrix degradation. 301 78

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