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)

Antibodies to fibronectin and to distinct types of procollagens and collagens were used in immunofluorescent staining to localize these proteins in cell cultures. Normal human skin or lung fibroblasts produced a fibrillar pericellular matrix in which fibronectin and procollagen (types I and III) showed extensive codistribution. Fibronectin and procollagen were synthesized by the same cells as judged by double-stain immunofluorescence. Pericellular procollagen was specifically digested with collagenase without an effect on the fibrillar distribution of matrix fibronectin. Brief treatment with trypsin removed both matrix proteins. The human tumor cell lines HT-1080 (fibrosarcoma) and RD (rhabdomyosarcoma) produced little or no matrix fibronectin or procollagen. At sites of cell contact, simian virus 40-transformed lung fibroblasts (VA13) produced small amounts of pericellular fibrillar matrix fibronectin that codistributed with procollagen type I. Intracellular fibronectin and procollagen were visualized in all of these human sarcoma cell lines. When chicken embryo fibroblasts infected with a T class mutant (NY68) of Rous sarcoma virus temperature-sensitive for transformation were maintained at the nonpermissive temperature (41 degrees ) the cells had normal phenotype and a fibrillar matrix containing fibronectin and procollagen was present. At the permissive temperature (35 degrees ), the cells showed transformed phenotype and the matrix was lost. The failure to produce a pericellular fibronectin/collagen matrix may account for several phenotypic characteristics of transformed cultured fibroblasts.
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PMID:Codistribution of pericellular matrix proteins in cultured fibroblasts and loss in transformation: fibronectin and procollagen. 21 6

It has been shown that tumour necrosis factor-alpha (TNF-alpha) induces the gene expression of collagenase and enhances the invasiveness of many cell types. However, we have previously demonstrated that interferon-gamma (IFN-gamma) induces the chemotactic response of cells and we have studied the in vitro effects of both cytokines on invasive migration using a human fibrosarcoma cell line (HT-1080). Invasive migration occurred with HT-1800 cells through a basement membrane equivalent (matrigel) and collagen type I gel. Pre-incubation of cells with increasing concentrations of IFN-gamma resulted in a dose-dependent reduction of this invasive migration. TNF-alpha considerably enhanced the invasiveness of HT-1080 cells and of fibroblasts. This effect could be significantly diminished by the pre-incubation of cells with IFN-gamma. Inhibition of invasiveness did not appear to be due to an altered binding to the barriers or altered collagenolytic activity of these cells, as shown by attachment and collagenase assays. These data support the concept that IFN-gamma can reduce the invasiveness of transformed cells which contributes to its in vivo anti-neoplastic effect.
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PMID:The effect of interferon-gamma on the invasiveness of HT-180 cells. 157 Dec 53

The 72-kd type IV collagenase is a member of the collagenase enzyme family that has been closely linked with the invasive phenotype of cancer cells. Previous studies have shown that both normal cells and highly invasive tumor cells produce the 72-kd type IV procollagenase enzyme in a complexed form consisting of the proenzyme and a novel tissue inhibitor of metalloproteinases, TIMP-2. The balance between activated enzyme and available inhibitor is thought to be a critical determinant of the matrix proteolysis associated with a variety of pathologic processes, including tumor cell invasion. In the present study, we demonstrate that alteration of the metalloproteinase-metalloproteinase-inhibitor balance in favor of excess inhibitor blocks human fibrosarcoma HT-1080 tumor cell invasion of a reconstituted basement membrane. The HT-1080 cell line produces both the 72-kd and the 92-kd type IV collagenases. Alteration of the type IV collagenase-inhibitor balance was achieved by addition of free TIMP-2 or antibodies to 72-kd type IV collagenase. Native, purified TIMP-2 was inhibitory in the range of 1-25 micrograms/mL. Addition of specific antiserum against the 72-kd type IV collagenase, which did not cross-react with the 92-kd type IV collagenase, inhibited HT-1080 cell invasion to the same extent. These results suggest that metalloproteinases, in particular the 72-kd type IV collagenase, are critical for tumor cell invasion of the reconstituted basement membrane. Our findings demonstrate that addition of the endogenous inhibitor TIMP-2 is able to block invasion. Thus, we recommend initiation of in vivo studies of the therapeutic potential of TIMP-2 to block tumor cell invasion and intravasation into the circulation.
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PMID:Tumor cell invasion inhibited by TIMP-2. 204 Oct 46

The specific role of proteolytic enzymes in the degradation by live cells of fibrillar model matrices (fibrin, collagen) was studied using monoclonal and polyclonal inhibitory (anti-catalytic) antibodies. Dissolution of fibrin by plasminogen-supplemented human HT-1080 cells was blocked by (1) omission of plasminogen, (2) inhibitory anti-plasmin antibody, and (3) inhibitory anti-u-PA antibody but not by non-inhibitory control antibodies. Using a similar approach, it was shown that the dissolution of reconstituted type I collagen fibrils by trypsin-supplemented live human skin fibroblasts was blocked by inhibitory antibodies to fibroblast-type procollagenase but not by noninhibitory control antibodies. These findings permit us to deduce that, at least in culture, the dissolution of fibrin by plasminogen-supplemented HT-1080 cells was mediated by plasminogen-assisted proteolysis which entailed the extracellular conversion of plasminogen to plasmin by cell-derived u-PA, and that the dissolution of collagen fibrils by trypsin-supplemented skin fibroblasts was mediated by a collagenase-dependent pathway.
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PMID:Use of inhibitory (anti-catalytic) antibodies to study extracellular proteolysis. 254 25

Bis(5-amidino-2-benzimidazolyl)methane (BABIM) is a synthetic aromatic amidine compound which has a number of important biochemical effects, including inhibition of a family of esteroproteases (trypsin, urokinase, plasmin) previously linked to the complex process of tumor invasion. Previous work has suggested that exogenous natural protease inhibitors can block invasion of tumor cells across basement membranes (BM) in vitro. The authors studied the effect of BABIM on the human cell line HT-1080 with the use of a quantitative in vitro amnion invasion assay system. They have verified the ability of these cells to grow in nude mice and metastasize via the lymphatics or blood vessels on the basis of the route of administration of the inoculum. Cells which were able to actively cross the entire BM were trapped on filters and counted by both brightfield microscopy and by beta scintillation counting of cells whose DNA was labeled with tritiated thymidine. In agreement with either counting technique, BABIM, at a concentration of 10(-4) M, significantly inhibited invasion (P less than 0.005) over the 7-day course of the experiments. Under these conditions, the inhibitor was nontoxic and did not alter the attachment of the cells to the amniotic membrane. Furthermore, a highly significant inhibition of invasion (P less than 0.001) was also demonstrated across a variation in molar concentration of BABIM of more than 2 orders of magnitude. Most remarkably, cells were initially inhibited in their ability to invade in the presence of between 10(-9) and 10(-3) M BABIM. Measurement of Type IV specific collagenase in media from these cells shows a significant inhibition of activity in the presence of BABIM. These results suggest two, not necessarily exclusive, alternative interpretations: first, that inhibition of the proteolytic steps along the pathway of activation of basement membrane degrading enzymes results in inhibition of invasion; second, that arginine directed esteroproteases may work in concert with cellular collagenolytic metalloproteinases in the process of invasion by human tumor cells through native matrix barriers.
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PMID:In vitro inhibition of human sarcoma cells' invasive ability by bis(5-amidino-2-benzimidazolyl)methane--a novel esteroprotease inhibitor. 300 61

A cDNA library prepared from RNA isolated from a cultured human tumor cell line, HT-1080, was screened with a mouse cDNA clone coding for part of the -Gly-Xaa-Yaa- domain of the alpha 2(IV) collagen chain. Four overlapping cDNA clones were characterized that coded for a low molecular weight human collagen. The cDNA clones did not, however, code for the short-chain collagens, types IX and X. The amino acid sequences derived from the clones resembled type IV collagen in that there were short interruptions in the repeating -Gly-Xaa-Yaa- sequence. The noncollagenous, carboxyl-terminal domain was, however, much shorter and contained only 18 amino acid residues. Interestingly, one of the cDNA clones contained an additional 36 nucleotides not found in an overlapping clone. The 36 nucleotides encoded four -Gly-Xaa-Yaa- repeats without changing the reading frame. Nuclease S1 mapping demonstrated that the difference between the clones was due to existence of two different mRNAs. A synthetic 24-residue peptide corresponding to the last two -Gly-Xaa-Yaa- triplets and the entire carboxyl-terminal domain was used to generate polyclonal antibodies. Electrophoretic transfer blot analysis of HT-1080 cells and normal human skin fibroblasts identified two polypeptides, Mr 67,000 and Mr 62,000, that were sensitive to bacterial collagenase.
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PMID:Partial characterization of a low molecular weight human collagen that undergoes alternative splicing. 354 3

The effect of dexamethasone on the synthesis and degradation of type IV collagen was studied in human fibrosarcoma cells, HT-1080. A dexamethasone concentration as low as 0.1 microM markedly increased collagen synthesis in HT-1080 cells labelled with [14C]proline. The increase in type IV collagen synthesis was not specific, since total protein synthesis was also increased. Further studies indicated that part of the increase was due to an increase in the specific radioactivity of the intracellular proline pool, after dexamethasone treatment. In fact, with dexamethasone concentrations of 0.1-10 microM the relative collagen synthesis was decreased, indicating that synthesis of other protein was increased more than that of type IV collagen. This was also confirmed by measuring the relative amount of type IV collagen RNA by using recombinant plasmid cDNA specific for the human procollagen pro alpha l (IV) RNA. The results indicated that relative collagen synthesis and the relative amount of type IV collagen messenger RNA was decreased similarly, indicating that dexamethasone affected type IV collagen synthesis at the pre-translational level. The dexamethasone-induced effect on total protein and collagen synthesis was maximal after 12-24 h. Dexamethasone induced a marked accumulation of collagen into the cell layer, leading to diminished deposition of soluble collagen into the medium. Since bacterial-collagenase treatment of the cell layer drastically decreased the collagen content of the dexamethasone-treated cells, this indicates that dexamethasone caused an accumulation of collagen into the extracellular matrix of the cell layer. In contrast, the amount of fibronectin was markedly increased in the medium. Dexamethasone decreased the type IV collagen-degrading activity in HT-1080 cells. The HT-1080 cells contained glucocorticoid receptors, as demonstrated by two different methods: by a whole-cell binding assay and by using a cytosol-gel-filtration method. The number of specific binding sites was similar to that in human skin fibroblasts. In conclusion, glucocorticoids affect the metabolism of type IV collagen and fibronectin in HT-1080 cells, and, since these cells contain specific glucocorticoid receptors, the effects are apparently receptor-mediated.
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PMID:Dexamethasone modulates the metabolism of type IV collagen and fibronectin in human basement-membrane-forming fibrosarcoma (HT-1080) cells. 366 50

Leukocyte-derived proteases may contribute to the destruction of basement membranes during inflammation. We have, therefore, examined the degradation of human type IV procollagen (PC) by purified human neutrophil elastase (HLE). Native [14C]proline-labeled type IV PC was isolated from cultures of human HT-1080 cells and incubated with HLE for various times at 25 or 37 degrees C. Cleavage products were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified by CNBr peptide mapping. Incubation of type IV PC with HLE (less than 1:10 HLE:type IV weight ratio) resulted in cleavage of the pro alpha 1 (IV) and pro alpha 2 chains (Mr 180,000 and 175,000) to discrete components of Mr greater than 140,000. Peptide mapping indicated that the carboxy-terminal collagenase-resistant domains of both chains were rapidly and preferentially degraded. Longer incubations or incubations at higher enzyme:substrate ratios resulted in extensive and asymmetric internal cleavage with the generation of fragments similar in size distribution to the major pepsin-resistant fragments of type IV collagen. Our findings indicate that soluble, native human type IV PC is a substrate for HLE and is preferentially cleaved within the globular carboxy-terminal domains of the pro alpha 1 and pro alpha 2 chains. We suggest that even limited cleavage of type IV PC by HLE may disrupt intermolecular carboxy-terminal interactions believed to be important for basement membrane assembly and for maintaining basement membrane structure in vivo.
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PMID:Degradation of native type IV procollagen by human neutrophil elastase. Implications for leukocyte-mediated degradation of basement membranes. 367 85

The extracellular matrix, prepared by extraction of confluent cultures of human lung WI-38 fibroblasts with a dipolar tonic detergent, contains four major glycoproteins: fibronectin, GP250, GP170, and GP140. All the glycoproteins can be surface-labeled; however, only fibronectin and GP170 can be readily removed by digestion with trypsin (Carter, W. G., and Hakomori, S. (1981) J. Biol. Chem. 256, 6953-6960). Most of the noncovalently bound GP250, GP170, and GP190, an additional minor glycoprotein, can be dissociated from the matrix by extraction with 8 M urea. The remaining insoluble matrix is stabilized by extensive intermolecular disulfide bonds and contains primarily GP140 and fibronectin (Carter, W. G. (1982) J. Biol. Chem. 257, 3249-3257). Affinity-purified, monospecific antibodies were prepared against GP[140 and fibronectin and utilized for detection of GP140 and fibronectin in extracts and conditioned media of WI-38, WI-38 VA13, WI-26, WI-26 VA4, and HT-1080 cells. Additional affinity-purified, polyspecific antibodies that react with GP250, GP190 GP170, and GP140 were also utilized. Fibronectin, GP250, GP190, GP170, and GP140 were all absent from transformed cells. With the exception of GP140, the absence of these glycoproteins from the matrix of transformed cells was paralleled by their accumulation in the conditioned culture media. Incubation of conditioned culture media with collagenase indicated that GP190, GP170, and GP140, as well as other glycoproteins, were digested. Antibodies to GP140 did not react with any other cellular component indicating that it is not a processing product of other matrix glycoproteins. GP140 has characteristics unlike all reported collagen types and appears to be a new collagen-like glycoprotein. In contrast, neither Gp250 nor fibronectin were sensitive to digestion with collagenase. Antibodies that react with GP250 did not react with fibronectin and vice versa, suggesting that GP250 and fibronectin do not share antigenic determinants. The interaction of labeled fibronectin and the labeled, gelatin-binding domain of fibronectin with cells after fractionation on polyacrylamide gels indicated that GP170 is the primary procollagen receptor for fibronectin in the extracellular matrix. GP140 also bound fibronectin but to a lesser degree. Soluble GP170 and GP190 present in the conditioned medium of cultured cells also bound to insolubilized fronectin, confirming the association of GP170 and GP190 with fibronectin. The interaction of the glycoprotein components in the matrix are discussed in relation to their potential cooperative function in cell attachment and their failure to adhere to the surface of transformed cells.
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PMID:Transformation-dependent alterations is glycoproteins of extracellular matrix of human fibroblasts. Characterization of GP250 and the collagen-like GP140. 629 8

The relationship of a basement membrane collagen degrading enzyme (BM collagenase) and plasminogen activator (PA) was studied in a number of non-malignant and malignant human and murine cell lines. Several non-malignant cell lines secreted significant amounts of PA but not detectable BM collagenase activity whereas the malignant cell lines, with one exception, secreted both enzymes. Therefore, the secretion of BM collagenase appears to be a characteristic of many malignant cells whereas PA is synthesized also by normal cells. The BM collagenase needed proteolytic activation for maximal activity indicating that it is secreted in a latent form. The addition of plasminogen to the culture medium of human fibrosarcoma cells (HT-1080) resulted in maximal activation of the enzyme. Plasmin, but not plasminogen, increased the activity of partially purified enzyme protein. Accordingly, the activation of latent BM collagenase in vivo may be facilitated by PA through the conversion of plasminogen to plasmin. It is suggested that the secretion of BM collagenase concomitantly with PA is a prerequisite for metastasis.
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PMID:Secretion of basement membrane collagen degrading enzyme and plasminogen activator by transformed cells--role in metastasis. 629 70

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