EC:3.4.24.17 - FACTA Search

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Query: EC:3.4.24.17 (MMP-3)
3,419 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mammary gland, during post-lactational involution, is subjected to extensive tissue reconstruction. This process is governed by the concerted expression of extracellular-matrix-degrading enzymes and their inhibitors. During carcinogenesis, the invasive growth of tumor cells is characterized by the penetration of the basement membrane and stromal invasion. We compared the expression of the tissue-remodeling enzymes stromelysin-1, a matrix metalloproteinase, and its inhibitor, tissue inhibitor of metalloproteinase-1 (TIMP-1), during mammary gland involution and carcinogenesis in mouse. In involuting mammary glands, stromelysin-1 was expressed in myoepithelial cells, whereas TIMP-1 was confined to the stromal tissue. To analyze the involvement of these tissue-remodeling genes in tumor development, we examined mammary tumors of transgenic mice expressing either the activated Ha-ras or c-myc oncogene under the control of a milk-protein gene promoter. In the undifferentiated and metastasizing Ha-ras-induced tumors, stromelysin-1 expression was comparable to that seen in involution, whereas TIMP-1 expression was greatly elevated. During Ha-ras-induced carcinogenesis, stromelysin-1 expression was first detected in the myo-epithelial cells surrounding preneoplastic lesions. In contrast, in the well-differentiated and non-metastatic mammary tumors induced by c-myc, no expression of either gene was observed. Thus, expression of stromelysin-1 and TIMP-1 is confined to the aggressively growing tumors and is induced in the earliest stages of carcinogenesis.
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PMID:Expression of stromelysin-1 and TIMP-1 in the involuting mammary gland and in early invasive tumors of the mouse. 796 Feb 27

We here report the spontaneous loss of both homologues of the c-jun gene in two cell lines, isolated after transfection of rat embryo fibroblasts with single ras-oncogenes. These cells lines (designated A14 and B25) grow rapidly in vitro, have transformed morphologies and are invasive through reconstituted basal membranes. Both c-jun defective cell lines were found to be tumorigenic and metastatic in athymic mice. Loss of c-jun was paralleled by a dramatic decrease in interstitial collagenase expression, whereas stromelysin mRNA expression in c-jun- A14 and B25 cells was similar to that observed in c-jun+ transformed cell lines. Transient transfection experiments using reporter plasmids showed that stromelysin promoter activity in A14 cells was severely impaired by a point mutation in the -71 to -65 AP-1 motif, and was inhibited by a Jun dominant negative mutant. Gel mobility shift studies demonstrated the presence of a factor in A14 nuclear extracts capable of binding the stromelysin TRE. This factor bound JunB, JunD and Fos antibodies. Our findings suggest that c-Jun is not required for the tumorigenic and metastatic potential of ras-transformed fibrosarcoma cells, and that AP-1 protein(s) lacking c-Jun are capable of activating the stromelysin gene promoter.
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PMID:Tumorigenic and metastatic properties of two ras-oncogene transfected rat fibrosarcoma cell lines defective in c-jun. 797 Jul 24

The mouse skin multistage model of carcinogenesis is an ideal system in which to study questions related to the timing of oncogene activation and inactivation of tumor suppressor genes. A number of laboratories have shown that an early event associated with chemical initiation of mouse skin tumors involves activation of the Harvey-ras oncogene. To approach the question of timing of loss of tumor suppressor genes in skin carcinogenesis, we have utilized a model system developed by Kulesz-Martin in which cloned mouse keratinocytes were initiated with DMBA and variant clones with benign or malignant phenotypes were developed. We have generated somatic cell hybrids between the parental clone and the variants to study the potential loss of tumor suppressor activity during the progression of cells from the initiated to benign and to the malignant phenotypes. Somatic cell hybrids generated between the parental, normal cell strain (i.e., 291) and a malignant cell variant (i.e., 05), that produces moderately differentiated squamous cell carcinomas (SCCs), failed to produce tumors indicating tumor suppressor activity in the 291 cells. The 291 cells and a benign papilloma producing variant (i.e., 09) were able to partially suppress in hybrids the tumorigenicity of another malignant cell line (i.e., 03) which produces poorly-differentiated SCCs. Suppression of 03 tumorigenicity by the benign tumor cell, 09, was less than that seen with the normal cell, 291. These results indicated two potentially different suppressor activities were inactivated during progression of normal 291 to malignant 03 cells. We have also obtained evidence that constitutive AP-1 activity plays a role in the maintenance of the malignant phenotype of SCC cell lines. Two different SCC cell lines, 308 10Gy5 and PDV, demonstrate constitutive AP-1 activity. To examine the role of this activity in malignant progression, we stably expressed a transactivation deletion mutant of the human c-jun gene in these cell lines. Expression of this mutant c-jun protein blocked transcriptional transactivation of AP-1 responsive reporter CAT constructs driven by jun, human collagenase, and the mouse stromelysin promoters. These malignant cells were not only inhibited in their AP-1 transactivation response, but also in their ability to form SCCs upon s.c. injection into athymic nude mice. These results support the idea that inhibition of AP-1-mediated transcriptional transactivation is in some cases sufficient to suppress the tumorigenic phenotype of malignant mouse epidermal cells.
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PMID:Oncogene activation and tumor suppressor gene inactivation during multistage mouse skin carcinogenesis. 813 4

The mouse epidermal cell line 308 contains an activated Ha-ras gene and forms benign papillomas when transplanted to the skin of athymic nude mice. A radiation-associated malignant variant of this cell line, 308-10Gy5, has been isolated and shown to form squamous cell carcinomas in nude mice. To further examine the molecular events involved in malignant conversion of 308-10Gy5, we assessed the activator protein-1 (AP-1) binding and transactivating ability of 308 and 308-10Gy5. In nuclear protein extracts of 308, AP-1 sequence-specific binding to an oligonucleotide containing a single high-affinity AP-1 binding site was induced by the tumor promoter 12-O-tetradecanoylphorbol-13-acetate, as determined by gel shift analysis. Nuclear extracts of 308-10Gy5 bound to the AP-1 oligonucleotide without treatment with tumor promoters. Not only was sequence-specific AP-1 DNA binding constitutively active in malignant versus benign tumor cells, but so was transactivation of a unique AP-1-responsive chloramphenicol acetyltransferase reporter construct, pTiCTaK. Constitutive transactivation of this AP-1-responsive reporter construct was observed in the malignant but not the benign tumor cells. Furthermore, steady-state transcript levels of the tumor-associated AP-1-responsive genes stromelysin, urokinase-type plasminogen activator, c-jun, and c-fos were higher in malignant 308-10Gy5 cells than in benign 308 cells. These results suggest that acquisition of constitutive AP-1 DNA binding and transactivation can result in sustained deregulation of gene expression. While malignant progression in keratinocytes is probably not due solely to the acquisition of constitutive cellular AP-1 activity, the effect of deregulated expression of AP-1-regulated genes, especially basement membrane-degrading enzymes, may be functionally related to malignant conversion.
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PMID:Constitutive AP-1 DNA binding and transactivating ability of malignant but not benign mouse epidermal cells. 814 9

Stromelysin is a metalloproteinase with the widest substrate specificity that plays a critical role in the induction of the metastatic phenotype in cancer cells. The mechanisms whereby growth factors and oncogenes control stromelysin expression are beginning to be characterized. We have recently demonstrated that protein kinase C isotypes down-regulatable by chronic exposure to phorbol esters are not involved in stromelysin gene expression in response to platelet-derived growth factor, ras oncogene, and phosphatidylcholine-hydrolyzing phospholipase C. We also identified a region in the stromelysin promoter, distinct from the 12-O-tetradecanoylphorbol-13-acetate-responsive element, responsible for the promoter activity in response to these stimulants. In this paper, we further characterize that promoter fragment and demonstrate that the region encompassing nucleotides -1218 to -1202, including the palindromic sequence ACTAGT, is necessary and sufficient for the control of stromelysin gene expression. The involvement of zeta-protein kinase C but not of c-raf in the stimulation of stromelysin promoter activity in response to platelet-derived growth factor is also demonstrated here. All these data suggest the existence of a bifurcation downstream of ras in the signaling mechanisms leading to stromelysin expression and DNA synthesis.
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PMID:Zeta PKC plays a critical role during stromelysin promoter activation by platelet-derived growth factor through a novel palindromic element. 814 3

The human osteosarcoma cell culture HOS does not produce matrix metalloproteinases (MPs). However, after transformation with the Ki-ras oncogene, the resulting culture (KHOS) produced readily detectable MPs. The molecular weight of the major MP was 66 kDa, while the molecular weights of two other minor bands were 71 kDa and 60 kDa. The activity of all three enzymes was inactivated by treatment with ethylene diaminetetra acetic acid, indicating that they are probably MPs. The substrate preference of the 66-kDa MP (in decreasing order) was gelatin and collagens V, I, III, and IV. Treatment of the MPs with p-aminophenylmercuric acetate led to the appearance of 62-kDa activated enzyme. The MP produced by KHOS cells did not react with the monoclonal anti-rat stromelysin antibody MC. Treatment of KHOS cells with retinoic acid and dexamethasone, which are known to suppress c-fos/c-jun and AP-1, suppressed the production of the MPs. Therefore, the activation of MPs by Ki-ras in KHOS cells may involve c-fos/c-jun and the AP-1-responsive pathway.
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PMID:Activated production of metalloproteinases in Ki-ras-transformed human osteosarcoma cells. 815 1

Metalloproteases are implicated in conferring invasive properties to tumor cells. We show here that treatment of ras-oncogene-transformed rat fibroblasts with dimethylsulfoxide (DMSO) results in a reversible decrease in stromelysin mRNA. Furthermore, stromelysin expression was found to be repressed by DMSO, but not by glucocorticoid hormone, in a fibrosarcoma cell line showing low AP-1 (fos/jun) transcription factor activity. In two fibrosarcoma cell lines which express high levels of stromelysin and low levels of 68 kDa type IV collagenase, the DMSO-induced decrease in stromelysin expression was paralleled by a decreased invasive propensity.
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PMID:Repression of stromelysin metalloprotease expression in rat fibrosarcoma cells by dimethylsulfoxide. 842 9

Carcinogenesis requires a complex series of genetic changes often involving multiple oncogenes and the inactivation of multiple tumor-suppressor genes. We presently examined the effect of the Krev-1 tumor-suppressor gene on the tumorigenic and metastatic potential of Ha-ras-transformed cloned rat embryo fibroblast (CREF) cells. Ha-ras-transformed CREF cells are morphologically transformed and anchorage independent; produce reduced levels of nm23-H1 (a putative metastasis-suppressor gene product) and TIMP-1 (tissue inhibitor of metalloproteinase 1) transcripts and mRNA compared with CREF cells; produce increased levels of cripto, 94-kDa gelatinase/type IV collagenase (94-kDa GEL), osteopontin (OPN) and transin/stromelysin transcripts and mRNA compared with CREF cells; and are tumorigenic and metastatic in both nude mice and syngeneic rats. Ha-ras-transformed CREF cells coexpressing the Krev-1 gene display a reversion in cellular phenotype and gene expression to that of untransformed CREF cells. However, Ha-ras/Krev-1-coexpressing CREF cells retain, albeit with extended latency periods, both tumorigenic and metastatic potential that is not related directly to the final level of Ha-ras or Krev-1 mRNA or the Ha-ras p21 transforming protein. Development of metastatic potential is, however, directly correlated with a reduction in nm23-H1 and TIMP-1 transcription and mRNA levels and an enhanced expression of cripto, 94-kDa GEL, osteopontin and transin. In contrast, expression of additional tumor-suppressor genes, such as the RB gene and p53, or genes associated with tumorigenesis in other model systems, such as major excreted glycoprotein (MEP), 72-kDa gelatinase/type IV collagenase (72-kDa GEL), fibronectin (FIB), tenascin and intracellular adhesion molecule 1 (ICAM-1) is not altered in a consistent manner during in vitro transformation suppression or escape from tumorigenic and metastatic suppression. These results indicate that Krev-1 suppression of the Ha-ras-transformed/oncogenic phenotype is associated with a distinct program of gene expression changes manifested by altered rates of transcription and steady-state mRNA levels of specific oncogenic-suppressing and oncogenic-inducing genes. These data support a model of Ha-ras-induced metastasis in CREF cells that involves a direct modulation in the expression/suppression of specific combinations of oncogenic-suppressor genes and metastasis-promoting genes that are regulated coordinately in the process of tumor progression.
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PMID:Defining the critical gene expression changes associated with expression and suppression of the tumorigenic and metastatic phenotype in Ha-ras-transformed cloned rat embryo fibroblast cells. 847 44

The mechanism or mechanisms by which ras oncogenes induce morphological transformation and anchorage-independent growth are poorly understood but are thought to involve stable alterations in gene expression. We previously described a genetically dominant, mutant rat fibroblast cell line (ER-1-2) that is resistant to ras-induced anchorage-independent growth. We now describe a cell line derived from ER-1-2 cells, termed ER-1-2T, that has apparently sustained a second, dominant mutation that conferred on these cells the ability to form colonies in soft agar. Analysis of these and control cell lines demonstrated that deregulation of many of the genes commonly associated with the transformed phenotype could be dissociated from anchorage-independent growth. After infection with a ras-expressing retrovirus, both control and ER-1-2 cell lines constitutively expressed elevated levels of the c-jun, junB, fosB, c-myc, collagenase, ornithine decarboxylase, osteopontin, stromelysin, cathepsin L, and insulin-like growth factor 1 genes. These data indicate that signaling events downstream of ras were largely intact in ER-1-2 cells and that the defect in these cells lies either on a pathway separate from those that control stable, ras-mediated expression of these genes or at a point in the cell-division cycle distinct from those that control expression of the genes. In contrast, only c-jun, junB, c-myc, and ornithine decarboxylase were expressed at a significantly elevated level in ER-1-2T cells. Thus, deregulated expression of the genes analyzed was not sufficient for anchorage-independent growth. Furthermore, deregulation of most of them was also not necessary.
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PMID:Dissociation of ras oncogene-induced gene expression and anchorage-independent growth in a series of somatic cell mutants. 868 49

Nerve growth factor (NGF)- and ras-induced neuronal differentiation of PC12 cells is accompanied by expression of transin, a secreted metalloproteinase. Retinoic acid (RA) is known to exert important effects on neural cell proliferation and differentiation. In this study we have analysed different PC12 sublines which express either activated Ras or dominant negative p21N17 Ras, to evaluate the influence of retinoic acid (RA) on the response of the transin gene to NGF and Ras. There was a good correlation between neurite extension and induction of transin mRNA levels in the different subclones. NGF did not induce transin mRNA in cells which do not differentiate in response to this neurotrophin. In addition, incubation with RA did not detectably increase basal transin mRNA levels, but caused a significant increase in the transin response to NGF or Ras in cells in which these factors induce a neuronal morphology. Sequences contained within 750 base pairs of the 5' flanking region of the transin gene confer responsiveness to NGF and Ras, but do not mediate the stimulatory effect of RA. In addition, expression of oncogenic Raf increases transin promoter activity in PC12 cells, but a dominant-negative Raf mutant was unable to block NGF-induced transin activity suggesting the existence of a bifurcation downstream of ras in the signaling mechanism leading to transin expression by NGF.
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PMID:Influence of Ras and retinoic acid on nerve growth factor induction of transin gene expression in PC12 cells. 913 70

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