Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.35 (matrix metalloproteinase 9)
2,207 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelial cells are known to bind to laminin, and two peptides derived from the laminin A (CTFALRGDNP) and B1 (CDPGYIGSR) chains block the capillary-like tube formation on a laminin-rich basement membrane matrix, Matrigel. In the present study, we have used various in vitro and in vivo assays to investigate the angiogenic-biologic effects of a third active site in the laminin A chain, CSRARKQAASIKVAVSADR (designated PA22-2) on endothelial cells. The SIKVAV-containing peptide was as active as the YIGSR-containing peptide for endothelial cell attachment but was less active than either the RGD-containing peptide or intact laminin. Endothelial cells seeded on this peptide appeared fibroblastic with many extended processes, unlike the normal cobblestone morphology observed on tissue culture plastic. In addition, in contrast to normal tube formation on Matrigel, short irregular structures formed, some of which penetrated the matrix and sprouting was more apparent. Analysis of endothelial cell conditioned media of cells cultured in the presence of this peptide indicated degradation of the Matrigel and zymograms demonstrated active collagenase IV (gelatinase) at 68 and 62 Kd. A murine in vivo angiogenesis assay and the chick yolk sac/chorioallantoic membrane assays with the peptide demonstrated increased endothelial cell mobilization, capillary branching, and vessel formation. These data suggest that the -SIKVAV-site may play an important role in initiating branching and formation of new capillaries from the parent vessels, a behavior that is observed in vivo in response to tumor growth or in the normal vascular response to injury.
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PMID:Interaction of endothelial cells with a laminin A chain peptide (SIKVAV) in vitro and induction of angiogenic behavior in vivo. 128 Feb 80

We examined whether fibroblasts from subcutaneous, colon or lung tissues of nude mice influence the invasive potential of highly metastatic human colon carcinoma KM12SM cells. Primary cultures of nude mouse fibroblasts from skin, lung and colon were established. Invasive and metastatic KM12SM cells were cultured alone or with fibroblasts. Growth and invasive properties of the KM12SM cells were evaluated as well as their production of gelatinase activity. KM12SM cells were able to grow on monolayers of all three fibroblast cultures but did not invade through skin fibroblasts. The conditioned media of KM12SM cells cocultured with skin, colon or lung fibroblasts were examined for the presence of type IV collagenase (gelatinase). KM12SM growing on plastic and on colon or lung fibroblasts produced significant levels of latent and active forms of 64 kDa type IV collagenase, whereas KM12SM cells cocultivated with nude mouse skin fibroblasts did not. In contrast, human squamous cell carcinoma A431 cells produced significant levels of collagenase type IV when cocultured with nude mouse skin fibroblasts, a tissue they invaded and completely penetrated. Incubation of KM12SM cells in serum-free medium containing recombinant human interferon-beta (fibroblast interferon) was associated with significant reduction in gelatinase activity. Since the production of type IV collagenase by human colon cancer cells is specifically inhibited by mouse skin fibroblasts but not by colon or lung fibroblasts the data suggest that organ-specific fibroblasts can influence the invasive and metastatic properties of KM12SM cells.
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PMID:Modulation of the invasive phenotype of human colon carcinoma cells by organ specific fibroblasts of nude mice. 128 73

K-1735 clones 10 and M2 are cell lines cloned from a UV-induced murine melanoma. While both lines are highly tumorigenic, only the M2 cells are highly invasive in vitro and metastatic in vivo. Here we have exposed the clone 10 cells to the synthetic peptide PA22-2, which contains the IKVAV sequence from the A chain of laminin and which, like laminin, induces collagenase IV production and enhances metastasis formation by B16F10 cells. Zymogram analysis of conditioned media from clone 10 cells cultured on the peptide demonstrated a dose-dependent increase in collagenase IV activity. When clone 10 cells were cultured on a reconstituted basement membrane (Matrigel), this peptide caused an invasive phenotype comparable to the M2 cells. The invasive clone 10 cells were, however, unable to form lung colonies in vivo in the presence of this peptide. We conclude that this peptide represents an active site on laminin which is able to stimulate the invasiveness of this tumor cell line, but that this activity is not sufficient to confer metastatic potential.
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PMID:Induction of an invasive phenotype in benign tumor cells with a laminin A-chain synthetic peptide. 129 29

The influence of human recombinant tumor necrosis factor-alpha has been assessed on a cell line (U-251) derived from a human malignant glial tumor. The results of this study demonstrate that tumor necrosis factor-alpha at doses of 50 and 100 ng/ml: 1) did not have cytotoxic or cytostatic effects on the U-251 cell line; 2) significantly increased the intracellular activity of manganese superoxide dismutase but had no effect on copper and zinc superoxide dismutase, catalase, or glutathione peroxidase activity; and 3) did not significantly alter the intracellular or extracellular general protease and collagenase type IV activity of these cells. The resistance of the U-251 cell line to tumor necrosis factor-alpha cytotoxicity may be related in part to the high intrinsic manganese superoxide dismutase activity present in this cell line combined with the ability of this cell line to induce substantial amounts of protective manganese superoxide dismutase activity in response to tumor necrosis factor-alpha.
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PMID:The effect of tumor necrosis factor-alpha on human malignant glial cells. 131 41

General protease and collagenase IV activity are involved in the remodelling of the vascular basement membrane that occurs during tumor-induced angiogenesis. This study has assessed the level of these enzymes in tumor, peritumoral or contralateral cerebral cortex tissue during the growth of C6 astrocytoma in the rat spheroid implantation model. General proteolytic activity was increased in tumor tissue beginning on day 8 following spheroid implantation, then increased to a maximum value on day 11 and decreased to control values on day 18. A similar pattern was seen for collagenase IV activity but maximal activity occurred on day 13. The peritumor and tumor patterns of activity were similar. General protease activity was increased in the hemisphere contralateral to the tumor suggesting that the growth of C6 astrocytoma in rat brain was influencing biochemical events distant from the tumor. C6 astrocytoma cells orchestrate a cascade of proteolytic events which may play a crucial role in angiogenesis associated with tumor growth in the model system studied.
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PMID:Proteolytic activity during the growth of C6 astrocytoma in the murine spheroid implantation model. 131 23

An expression vector was constructed in which TGF-beta 1 was placed under the control of the metallothionein promoter. Cys223 and Cys225 in the TGF-beta 1 propeptide were converted to serines, mutations which result in dissociation of the pro-peptide and secretion of bioactive TGF-beta 1 [Brunner, A.M., Marquardt, H., Malacko, A.R., Lioubin, M.N. and Purchio, A.F. (1989) J. Biol. Chem., 264, 13660-13664]. A fibrosarcoma was transfected with this plasmid and a clone (17.18) was selected in which TGF-beta 1 mRNA was able to be induced six-fold following zinc sulphate treatment. These cells increased the secretion of bioactive TGF-beta 1 14-fold and exhibited a coincidental increase in jun-B mRNA expression, suggesting that secreted TGF-beta 1 was acting to induce this early response gene by autocrine activation. Following zinc sulphate induction, the tumor cells became progressively more motile and able to invade collagen gels. In contrast to parental tumor not bearing the TGF-beta 1 expression vector, zinc sulphate stimulation of clone 17.18 enhanced collagenase IV and procathepsin L mRNA levels and enhanced the secretion of many collagenolytic proteases into the medium. Since the action of TGF-beta generally decreases proteolysis by suppression of protease transcription, we compared the response of normal parental fibroblasts to ras-transformed fibrosarcomas and confirmed that TGF-beta could greatly enhance collagenase IV and procathepsin L mRNA levels while having little effect on non-transformed fibroblasts. These experiments indicate that induction of TGF-beta secretion can enhance motility and protease production through autocrine activation, thus increasing the invasion potential of fibrosarcomas.
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PMID:Autocrine induction of tumor protease production and invasion by a metallothionein-regulated TGF-beta 1 (Ser223, 225). 131 70

We have previously observed that acellular extracts from necrotic areas (NE) of the non-metastatic murine mammary adenocarcinoma M3, enhance in vitro cell detachment and spontaneous lung metastases. In the present study, using different proteinase inhibitors along with NE, only the calcium chelator EDTA could significantly abrogate the enhanced cell detachment from M3 produced by NE. The typical cleavage products of type IV collagenase were detected inside the tumor necrotic area, mainly in association with necrobiotic cells, as evaluated by Western blot analysis and immunohistochemical assays. Zymography revealed the presence of 72- and 92-kDa gelatinase/type IV collagenase in NE. Moreover, NE increased the in vitro invasive ability of cultured M3 cells. The use of specific antibodies against both 72- and 92-kDa type IV collagenases in the invasion assay showed that only the latter was able to revert the enhanced invasiveness to the baseline. It can be concluded that tumor necrosis is an important source of gelatinase/type IV collagenase, mainly in its 92 kDa form, and plays a major role in tumor invasion.
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PMID:Expression of gelatinase/type IV collagenase in tumor necrosis correlates with cell detachment and tumor invasion. 131 49

We studied the distribution of the basement membrane components laminin and type IV collagen in 46 serous tumors of the ovary, including a group of low malignant potential tumors with microinvasion. The findings were correlated with the expression of the 72 kDa type IV collagenase, an enzyme that initiates the degradation of type IV collagen and consequently may play a role in the process of invasion. Benign cystadenomas and tumors of low malignant potential without microinvasion showed a continuous basement membrane; whereas invasive carcinomas, peritoneal implants, and lymph node metastasis had frequent disruptions and extensive areas without basement membrane components. Early invasion in tumors of low malignant potential was characterized by focal disruptions in basement membranes and complete absence of laminin and type IV collagen around single or clusters of microinvasive cells. Type IV collagenase was negative or minimally expressed in cystadenomas, whereas in invasive carcinomas and metastasis the reactivity was moderate to intense. Microinvasive cells in tumors of low malignant potential were strongly positive. The collagenase IV was also localized in cell clusters elsewhere in the tumors where the basement membrane was still preserved. These cells had a similar morphology to that of the microinvasive cells. We conclude that detection of basement membrane components may be useful in recognizing early invasion in this group of ovarian neoplasms. The correlation between progressive anomalies of the basement membrane and expression of type IV collagenase suggests that this enzyme functions directly in the degradation of basement membrane components and facilitates the invasive process.
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PMID:Evaluation of basement membrane components and the 72 kDa type IV collagenase in serous tumors of the ovary. 131 1

SV-40 transformed human lung fibroblasts and HT 1080 fibrosarcoma cells secrete a 92-kDa type IV collagenase (in addition to 72-kDa type IV collagenase identical to that found in macrophages, phorbol ester differentiated U937 cells, and keratinocytes. The expression of this protease is induced by the tumor promoter TPA, and interleukin-1 and was not detected in the parental human lung fibroblast. The 92-kDa preproenzyme has a predicted Mr of 78,426, including a 19 amino acid long hydrophobic signal peptide. The apparent discrepancy between the predicted molecular weight and the molecular weight of the secreted protein is due to a post-translational modification of the enzyme through glycosylation. The 92-kDa type IV collagenase consists of five distinct domains, including a unique 54 amino acid long collagen--like domain, and is a member of the secreted ECM metalloprotease gene family. Both the 72 and 92-kDa type IV collagenase contain a fibronectin-like collagen binding domain. The mosaic structure of the secreted ECM metalloproteases is a result of a recruitment of the functional units from ECM structural macromolecules into an enzyme protein in the process of evolution. The 92-kDa and 72-kDa type IV collagenase proenzymes form a noncovalent complex with inhibitors, which is activatable by APMA, yielding an enzymes with similar if not identical substrate specificity profile. Our results demonstrate that while the 92-kDa type IV collagenase forms a stoichiometric complex with TIMP, the 72-kDa type IV collagenase, purified from the same starting material, contains a novel 24-kDa inhibitor-TIMP-2.
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PMID:Mosaic structure of the secreted ECM metalloproteases and interaction of the type IV collagenases with inhibitors. 133 9

Cell clones derived from a human melanoma metastasis selected for different integrin profiles were examined in vitro for invasive potential and biological and biochemical features potentially related to this process. Clones which expressed high levels of integrins showed high invasive potential, extracellular matrix degradation, and adhesion to gelatin-coated substrates. A correlation was also found between invasiveness and intracellular and extracellular plasminogen activator activity. Heparanase and collagenase type IV activities were apparently unrelated to invasiveness. gamma-Glutamyl transferase (GGT) activity was high in highly invasive clones, whereas melanin content was high in slightly invasive clones. Heterogeneity was also observed in cellular parameters such as cell dimensions, growth features and DNA index. The intrinsic biological and biochemical heterogeneity of a cell population derived from a single metastasis may be responsible for the different behaviour of clones, regardless of their invasive potential. Since slightly invasive cells are more differentiated than highly invasive cells, malignancy and differentiation are inversely correlated in such human melanoma clones.
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PMID:Biological and enzymatic features of human melanoma clones with different invasive potential. 136 80


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