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: UMLS:C0684249 (lung carcinoma)
23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The primary structure of tumor invasion-inhibiting factor 2 (IIF-2) purified from bovine liver (A. Isoai et al., Jpn. J. Cancer Res., 81:909-914, 1990) was determined. A computer homology search of the National Biomedical Research Foundation data bank revealed that IIF-2 is identical to the carboxyl-terminal region, residue number [69-89], of high mobility group 17 which is a DNA-binding non-histone protein. IIF-2 synthesized by an automated peptide synthesizer showed similar invasion-inhibitory activity as compared with the purified factor, when tested with the monolayer invasion assay system using highly invasive rat ascites tumor cells. When examined with the other in vitro assay systems using a modified Boyden chamber, the synthetic IIF-2 suppressed the chemotactic migration of highly metastatic B16 melanoma (B16FE7) cells to fibronectin or laminin and invasion through Matrigel. The IIF-2 inhibited neither the cell proliferation nor the binding of cells to fibronectin or Matrigel and also showed no significant inhibition of Mr 90,000 type IV collagenase (gelatinase) obtained from human schwannoma (YST-3) cells. The formation of lung colonies in mice given injections of B16FE7 and Lewis lung carcinoma cells was significantly reduced by the coinjection of the IIF-2. These results suggest that IIF-2 suppresses tumor invasion by impairing cell motility and inhibits the migration of metastasizing cells through extracellular matrix (extravasation steps) following their arrest in the capillary bed of the lung in vivo.
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PMID:Tumor invasion-inhibiting factor 2: primary structure and inhibitory effect on invasion in vitro and pulmonary metastasis of tumor cells. 131 31

The effect of retinoid treatment of A549 human lung carcinoma cells on in vitro cell invasion using the human amnion basement membrane (BM) was investigated. A 2-day retinoid pretreatment of the cells resulted in a significant reduction in their invasive ability. The most effective retinoid, retinol acetate, inhibited cell migration through the BM and degradation of [3H] proline labeled BM components by 50% at noncytotoxic concentrations of 0.09, and 3 micrograms/ml, respectively. Inhibition by retinol acetate of A549 cell invasive potential was accompanied by a significant decrease in type IV collagenase activity and no change in transglutaminase activity.
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PMID:Inhibition by retinoids of in vitro invasive ability of human lung carcinoma cells. 290 83

Collagenase type IV degradation activity was examined in metastatic and nonmetastatic clones of the Lewis lung carcinoma (3LL) and of the T10 sarcoma. Conditioned media prepared from cells of both tumors grown in vitro contained low degradation activities, whereas conditioned media from organ cultures of the same clones grown as solid tumors in animals exhibited higher degradation activities. Analysis of subcellular fractions of tumor cells showed that collagenase type IV activity was localized mainly in the cytoplasmic fraction. Crude homogenates or detergent lysates manifested low degradation activities. Little activity was associated with purified plasma membrane preparations and endoplasmic reticular fractions. However, addition of plasma membrane to conditioned media and to cytoplasmic fractions reduced the degradation activities of the cytoplasmic fractions. Possibly a factor that inhibits collagenase type IV exists in the cells in a vesicular form. No correlation between degradation activity and metastatic capacity was demonstrated in the models used in this study. Both metastatic and nonmetastatic clones of the same tumor similarly could degrade basement membrane components.
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PMID:Proteolytic enzymes in tumor metastasis. II. Collagenase type IV activity in subcellular fractions of cloned tumor cell populations. 298 56

Cinnamic acid, a naturally occurring aromatic fatty acid of low toxicity, has a long history of human exposure. We now show that cinnamic acid induces cytostasis and a reversal of malignant properties of human tumor cells in vitro. The concentration causing a 50% reduction of cell proliferation (IC50) ranged from 1 to 4.5 mM in glioblastoma, melanoma, prostate and lung carcinoma cells. Using melanoma cells as a model, we found that cinnamic acid induces cell differentiation as evidenced by morphological changes and increased melanin production. Moreover, treated cells had reduced invasive capacity associated with modulation of expression of genes implicated in tumor metastasis (collagenase type IV, and tissue inhibitor metalloproteinase 2) and immunogenicity (HLA-A3, class-I major histocompatibility antigen). Further molecular analysis indicated that the anti-tumor activity of cinnamic acid may be due in part to the inhibition of protein isoprenylation known to block mitogenic signal transduction. The results presented here identify cinnamic acid as a new member of the aromatic fatty acid class of differentiation-inducers with potential use in cancer intervention.
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PMID:Cinnamic acid: a natural product with potential use in cancer intervention. 762 77

The tumor cell-derived collagenase-stimulatory factor (TCSF) was previously purified from human lung carcinoma cells (S. M. Ellis, K. Nabeshima, and C. Biswas, Cancer Res., 49: 3385-3391, 1989). This protein is present on the surface of several types of human tumor cells in vitro and in vivo and stimulates production of interstitial collagenase in human fibroblasts. In this study it is shown that TCSF stimulates expression in human fibroblasts of mRNA for stromelysin 1 and 72-kDa gelatinase/type IV collagenase, as well as for interstitial collagenase. Measurement of enzyme protein by immunoassay showed that the amounts of interstitial collagenase and stromelysin 1 were increased in TCSF-treated fibroblasts; gelatin zymography indicated that there was an increase in the 72-kDa gelatinase. These results indicate that tumor cell interaction with fibroblasts via TCSF could lead to increased degradation of interstitial or basement membrane matrix components and thus to enhanced tumor cell invasion.
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PMID:Tumor cell-derived collagenase-stimulatory factor increases expression of interstitial collagenase, stromelysin, and 72-kDa gelatinase. 831 25

Local invasive growth is one of the key features of primary malignant brain tumors accompanied by remodeling of the vasculature and destruction of normal brain tissue. Tissue invasiveness is an essential biological function used by a tumor to overcome the various barriers to its progression. The expression of metalloproteases has been shown to play a critical role in the invasive process in a number of tumors; however, their expression in human brain tumors has not been previously reported. In this study we showed metalloprotease activities at M(r) 240,000, 123,000, 92,000, 72,000, and 67,000 in brain tumor extracts. These enzyme activities were inhibited by EDTA, an inhibitor of metalloproteases. Significant increases in levels of protease bands at M(r) 92,000, 123,000, and 240,000 were observed in glioblastoma and metastatic lung tumors. Enzymatic inhibition and Western blotting with M(r) 92,000 type IV collagenase antibody confirmed the presence of M(r) 92,000 type IV collagenase in all samples. Quantitative analysis by densitometry showed 8-10-fold and 6-8-fold increases in M(r) 92,000 type IV collagenase activity in glioblastoma and metastatic lung carcinoma samples, respectively, when compared with normal brain, meningioma, astrocytoma, metastatic colon, and breast carcinoma samples. These findings provide evidence for elevated levels of metalloproteases in glioblastomas and suggest a therapeutic target for minimizing the invasive propensity of gliomas using protease inhibitors.
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PMID:Elevated levels of M(r) 92,000 type IV collagenase in human brain tumors. 848 4

Boanmycin (bleomycin A6, BAM) was found to markedly inhibit the spontaneous pulmonary metastasis of Lewis carcinoma in mice. Compared at equitoxic doses (1/9 LD50), BAM was more effective than mitomycin. Minocycline (MNO) at 5 mg.kg-1 showed no inhibition on the growth of sc transplanted Lewis primary tumor; however, it markedly potentiated the antimetastatic effect of BAM. Treated with BAM (5 mg.kg-1) alone, the number of total metastatic foci and that of large foci (> 2 mm in diameter) in the lung were suppressed by 67% and 85%, respectively. When BAM was used in combination with MNO, the number of those foci was further reduced by 88% and 100%, respectively. By NAG enzyme assay, MNO was not cytotoxic and showed no synergism with BAM against PG cells, a cell line derived from a highly metastatic human giant cell carcinoma of the lung. Determined by ELISA with a monoclonal antibody, the expression of type IV collagenase in PG cells was remarkably inhibited by MNO. The intracellular free Ca2+ level in PG cells was reduced from 76.7 nmol.L-1 to 42.2 nmol.L-1 by MNO treatment. The study suggests that the combination of boanmycin and minocycline may be useful for control of tumor metastasis and the inhibition of type IV collagenase expression may be involved in the mechanism of minocycline potentiation.
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PMID:[Minocycline potentiates the antimetastatic effect of boanmycin]. 870 42

Increased levels of matrix metalloproteinases are associated with tissue degradation and remodeling during tumor invasion and wound healing. In both processes, there is evidence that cell interactions between fibroblasts and tumor cells or keratinocytes lead to increases in metalloproteinase production. We have previously isolated and purified a tumor cell surface protein, EMMPRIN (extracellular matrix metalloproteinase inducer), which stimulates production of interstitial collagenase, gelatinase A, and stromelysin-1 by fibroblasts, and we have obtained cDNA clones that encode the EMMPRIN protein from LX-1 human lung carcinoma cells. In this study we report immunolocalization of EMMPRIN around the surface of human keratinocytes in vitro and in vivo, and isolation of cDNAs that encode the entire open reading frame for EMMPRIN from a human keratinocyte library. Comparison of the EMMPRIN cDNAs from normal human keratinocytes and LX-1 human tumor cells by nucleotide sequence analysis, expression of the recombinant proteins, and in vitro translation using the cDNAs from the two sources indicate that they express very similar forms of EMMPRIN. Native EMMPRIN isolated directly from extracts of keratinocytes, however, is slightly smaller in size and is present at a lower concentration compared with that from LX-1 tumor cells. These results establish the presence of EMMPRIN in the normal epidermis and raise the possibility of its involvement in regulation of matrix remodeling at the epidermal-dermal interface.
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PMID:Human keratinocytes express EMMPRIN, an extracellular matrix metalloproteinase inducer. 875 67

Membrane-type matrix metalloproteinase 1 (MT1-MMP) is a member of the recently identified unique membrane-type subgroup in the matrix metalloproteinase (MMP) family. MT1-MMP has proteolytic activity against components in the extracellular matrix and activates progelatinase A (72-kDa type IV procollagenase/proMMP-2) on the cell surface. Because MT1-MMP is frequently expressed in a variety of tumors, we examined its contribution to their metastatic potential. The mouse lung carcinoma cell line Madison 109 was transiently transfected with a MT1-MMP expression plasmid and inoculated into the tail vein of BALB/c mouse. Fate of the transfected cells was monitored by the neo(r) gene in the plasmid using the quantitative PCR method. The survival rate of the parental cells in lung was 0.7% of the inoculated cells. It was increased by 3-fold with the MT1-MMP transfected cells and the number of the lung nodules increased accordingly. Immunostaining of the consecutive tissue sections revealed that lung nodules expressing MT1-MMP were positive for gelatinase A as well, whereas MT1-MMP-negative cells were not stained for gelatinase A at all. Thus, MT1-MMP-expressing cells acquire specific ability to bind exogenous progelatinase A.
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PMID:Expression of membrane-type matrix metalloproteinase 1 (MT1-MMP) in tumor cells enhances pulmonary metastasis in an experimental metastasis assay. 897 Nov 75

Matrix proteolysis is thought to play a crucial role in several stages of tumor progression, including angiogenesis, and the invasion and metastasis of tumor cells. We investigated the specific role of gelatinase A (matrix metalloproteinase 2) on these events using gelatinase A-deficient mice. In these mice, tumor-induced angiogenesis was suppressed according to dorsal air sac assay. When B16-BL6 melanoma cells or Lewis lung carcinoma cells were implanted intradermally, the tumor volumes at 3 weeks after implantation in the gelatinase A-deficient mice decreased by 39% for B16-BL6 melanoma and by 24% for Lewis lung carcinoma (P < 0.03 for each tumor). The number of lung colonies of i.v. injections fell by 54% for B16-BL6 melanoma and 77% for Lewis lung carcinoma (P < 0.014 and P < 0.0015, respectively). These results indicated that host-derived gelatinase A plays an important role in angiogenesis and tumor progression, suggesting the usefulness of gelatinase A inhibitors for anticancer chemotherapy.
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PMID:Reduced angiogenesis and tumor progression in gelatinase A-deficient mice. 950 Apr 69


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