Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Production of metalloproteinases such as collagenases has been reported to be involved in the metastasis of cancer cells. Granulocytic sarcoma in extramedullary sites can be formed by similar steps to other cancers. In this study, we have examined the secretion of type IV collagenases and a tissue inhibitor of metalloproteinase-1 (TIMP-1) in several human leukemia cell lines, including a granulocytic sarcoma-derived cell line established from a patient with granulocytic sarcomas in dermal tissues. We have also examined the invasive capacity of these leukemia cell lines into reconstituted basement membrane, Matrigel, which was used for in vitro invasion assay. Among the human leukemia cell lines used in this study, only the granulocytic sarcoma cell line was found to secrete type IV collagenase constitutively. Other myeloid leukemia cell lines such as HL-60 and U-937 produced type IV collagenase only after treatment with 12-O-tetradecanoylphorbol-13-acetate. All the cell lines secreted similar amounts of the tissue inhibitor of metalloproteinases. In vitro invasion assay revealed that the granulocytic sarcoma cell line showed higher invasive capacity than the other cell lines. These results suggest that the secretion of 92 kDa type IV collagenase plays a role in the leukemia cells' invasion of extramedullary tissues.
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PMID:A possible role of 92 kDa type IV collagenase in the extramedullary tumor formation in leukemia. 774

Moloney murine leukemia virus (Mo-MuLV) is a thymotropic and leukemogenic retrovirus which causes T lymphomas. The long terminal repeat (LTR) of Mo-MuLV affects the regulation of a number of cellular genes, including collagenase IV, monocyte chemoattractant protein-1, and c-jun genes, all of which contain 12-O-tetradecanoylphorbol-13-acetate-responsive element consensus sites within their promoters. We report here that Mo-MuLV stimulates the collagenase IV gene through transcription factor AP-1, and that the expression of a subgenomic portion of Mo-MuLV LTR alone is sufficient for this effect. Transient or stable expression of the viral LTR increases cellular AP-1 DNA binding activity. The collagenase IV 12-O-tetradecanoylphorbol-13-acetate-responsive element consensus sequence was shown to be required for this trans-activation. Deletions or mutations of this consensus site which abolished AP-1 binding also abolished trans-activation by the LTR. Transient or stable transfection of the viral LTR into cells stimulated c-jun gene expression, suggesting one mechanism whereby the viral LTR may induce cellular AP-1 activity. Thus, the Mo-MuLV LTR, through activation of the transcription factor AP-1, is capable of regulating cellular gene expression, including the induction of proto-oncogenes. This activity may be relevant to the mechanisms whereby retroviruses which do not contain oncogenes induce neoplasia.
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PMID:The Moloney leukemia retroviral long terminal repeat trans-activates AP-1-inducible genes and AP-1 transcription factor binding. 777 15

Matrix metalloproteinase 9 (MMP-9), also known as 92-kD type IV collagenase/gelatinase, is believed to play a critical role in tumor invasion and metastasis. Here, we report that MMP-9 was constitutively released from the human promyelocytic cell line HL-60 as determined by zymographic analysis. Tumor necrosis factor-alpha (TNF-alpha) enhanced the enzyme release threefold to fourfold and the protein kinase C (PKC) activator and differentiation inducer 12-O-tetradecanoylphorbol-13-acetate (TPA) eightfold to ninefold. Gelatinase induction by TNF-alpha and TPA was inhibited by actinomycin D or cycloheximide, indicating that de novo protein synthesis was required. Neutralizing monoclonal antibodies to TNF-alpha (anti-TNF-alpha) decreased the basal MMP-9 release of these cells. In addition, these antibodies also significantly interfered with the TPA-induced enzyme release. Agents that inhibit TNF-alpha expression in HL-60 cells, such as pentoxifylline and dexamethasone, completely abrogated both the constitutive and TPA-evoked MMP-9 release. Diethyldithiocarbamate, which is known to stimulate TNF-alpha production in HL-60 cells, exerted a positive effect on MMP-9 release in untreated cells but was inhibitory in TPA-treated HL-60 cells. The PKC inhibitor staurosporine at low concentrations (100 ng/mL) caused a significant augmentation of MMP-9 release in untreated cultures that was blocked by the addition of anti-TNF-alpha. High concentrations (2 mumol/L) of staurosporine completely abolished the extracellular enzyme activity both in untreated and TPA-stimulated cells. These results suggest, that TNF-alpha is required for basal and PKC-mediated MMP-9 release in HL-60 leukemia cells. Thus, MMP-9 secretion may be regulated by TNF-alpha not only in a paracrine but also in an autocrine fashion. This may potentiate the matrix degradative capacity of immature leukemic cells in the processes of bone marrow egress and the evasion of these cells into peripheral tissue.
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PMID:Regulation of 92-kD gelatinase release in HL-60 leukemia cells: tumor necrosis factor-alpha as an autocrine stimulus for basal- and phorbol ester-induced secretion. 820 88

Moloney murine leukemia virus (Mo-MuLV) is a thymotropic and leukemogenic retrovirus which causes T lymphomas and leukemias, yet does not contain a transforming gene product. Mo-MuLV has been shown to trans-activate cellular genes via a polymerase III-generated transcript, designated let, from the long terminal repeat (LTR). Here we demonstrate that introduction of the Mo-MuLV LTR stably, or transiently, into murine or human cultured cells resulted in an 8- to 15-fold increase in collagenase IV (92-kDa gelatinase, gelatinase B, matrix metalloproteinase-9) gene expression. Collagenase IV protein expression was induced 9-fold by stable integration of MuLV LTR, as measured by immunoblot analysis using an anti-collagenase IV polyclonal antibody. The MuLV LTR coordinately stimulated the proteolytic activity of collagenase IV by 14-fold. The AP-1-binding site in the collagenase IV promoter was required for transactivation by the LTR. Collagenase type IV degrades type IV collagen, a major component of basement membrane, which constitutes the first step of the metastatic cascade. The activation of proteolytic enzymes by the MuLV LTR may thus play a contributory role in the development or spread of virus-induced lymphomas or leukemias.
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PMID:Activation of collagenase IV gene expression and enzymatic activity by the Moloney murine leukemia virus long terminal repeat. 901 32

We are developing protease-activatable gene delivery vehicles for selective gene delivery to protease-expressing cells. Angiogenesis, inflammation, and cancer invasion are linked to the overexpression of matrix metalloproteinases (MMPs), which destroy the extracellular matrix. Therefore, the MMPs are promising targets for therapy. We have displayed epidermal growth factor (EGF) on retroviral vector particles as an MMP-cleavable amino-terminal extension of the 4070A murine leukemia virus (MLV) envelope glycoprotein. This was achieved by engineering an MMP-cleavage signal (PLGLWA) into the linker between the EGF domain and the 4070A SU. The chimeric envelope was expressed and incorporated into viral particles, and the EGF domain could be cleaved from the surface of the viral particles by gelatinase A (MMP-2). The MMP-sensitive vector and control MMP-insensitive vectors could bind, via their displayed EGF domains, to EGF receptors on A431 cells but were unable to infect them because the EGF receptor (EGFR) does not support postbinding steps required for retroviral entry. In the presence of exogenous MMPs, the infectivity of the MMP-sensitive vector, but not of the MMP-insensitive vectors, was restored on A431 cells, and this cleavage activation could be partially blocked by MMP inhibitors. Endogenous MMPs produced by EGFR-positive HT 1080 cells could selectively activate the MMP-sensitive vector giving rise to a titer that was 1,000-fold higher on HT 1080 cells than on MMP-negative A431 cells. Inhibitor studies and gelatin zymograms indicated that the membrane-associated MT-MMP expressed on the HT 1080 cells played an important role in cleavage activation of the vector. When presented simultaneously with both EGFR-positive cell lines A431 and HT 1080, the vector could efficiently discriminate between the two different cell types, infecting the MMP-positive HT 1080 cells in preference over the A431 cells.
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PMID:A gene delivery system activatable by disease-associated matrix metalloproteinases. 911 12

Leukemia and lymphoma induced by feline leukemia viruses (FeLVs) are the commonest forms of illness in domestic cats. These viruses do not contain oncogenes, and the source of their pathogenic activity is not clearly understood. Mechanisms involving proto-oncogene activation subsequent to proviral integration and/or development of recombinant viruses with enhanced replication properties are thought to play an important role in their disease pathogenesis. In addition, the long terminal repeat (LTR) regions of these viruses have been shown to be important determinants for pathogenicity and tissue specificity, by virtue of their ability to interact with various transcription factors. Previously, we have shown that, in the case of Moloney murine leukemia virus, the U3 region of the LTR independently induces transcriptional activation of specific cellular genes through an LTR-generated RNA transcript (S. Y. Choi and D. V. Faller, J. Biol. Chem. 269:19691-19694, 1994; S.-Y. Choi and D. V. Faller, J. Virol. 69:7054-7060, 1995). In this report, we show that the U3 region of exogenous FeLV LTRs can induce transcription from collagenase IV (matrix metalloproteinase 9) and monocyte chemotactic protein 1 (MCP-1) promoters up to 12-fold. We also show that AP-1 DNA-binding activity and transcriptional activity are strongly induced in cells expressing FeLV LTRs and that LTR-specific RNA transcripts are generated in those cells. Activation of mitogen-activated protein kinase kinases 1 and 2 (MEK1 and -2) by the LTR is an intermediate step in the FeLV LTR-mediated induction of AP-1 activity. These findings thus suggest that the LTRs of FeLVs can independently activate transcription of specific cellular genes. This LTR-mediated cellular gene transactivation may play an important role in tumorigenesis or preleukemic states and may be a generalizable activity of leukemia-inducing retroviruses.
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PMID:Feline leukemia virus long terminal repeat activates collagenase IV gene expression through AP-1. 1023 55

We have previously reported that the long terminal repeat (LTR) region of feline leukemia viruses (FeLVs) can enhance expression of certain cellular genes such as the collagenase IV gene and MCP-1 in trans (S. K. Ghosh and D. V. Faller, J. Virol. 73:4931-4940, 1999). Genomic DNA of all healthy feline species also contains LTR-like sequences that are related to exogenous FeLV LTRs. In this study, we evaluated the cellular gene transactivational potential of these endogenous FeLV LTR sequences. Unlike their exogenous FeLV counterparts, neither nearly full-length endogenous FeLV molecular clones (CFE-6 and CFE-16) nor their isolated LTRs were able to activate collagenase IV gene or MCP-1 expression in transient transfection assays. We had also demonstrated previously that production of an RNA transcript from exogenous FeLV LTRs correlates with their transactivational activity. In the present study, we demonstrate that the endogenous FeLV LTRs do not generate LTR-specific RNA transcripts in the feline embryo fibroblast cell line AH927. Furthermore, infection of AH927 cells by an exogenous FeLV subgroup A virus did not induce production of such LTR-specific transcripts from the endogenous proviral genomes, although the LTR-specific transcripts from the exogenous virus were readily detected. Finally, LTR-specific transcripts were not generated in BALB/3T3 cells transiently transfected with isolated CFE-6 LTR, in contrast to transfections with LTRs from exogenous viruses. Our data thus suggest that the inability of endogenous FeLV LTRs in gene transactivation is not due to cell line specificity or presence of any upstream inhibitory cis-acting element. Endogenous, nonleukemogenic FeLV LTRs, therefore, do not transactivate cellular gene expression, and this property appears to be specific to exogenous, leukemogenic FeLVs.
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PMID:Long terminal repeat regions from exogenous but not endogenous feline leukemia viruses transactivate cellular gene expression. 1100 Feb 48

The U3 region of the LTR of oncogenic Moloney murine leukemia virus (Mo-MuLV) and feline leukemia viruses (FeLV) have been previously reported to activate expression of specific cellular genes in trans, such as MHC class I, collagenase IV, and MCP-1, in an integration-independent manner. It has been suggested that transactivation of these specific cellular genes by leukemia virus U3-LTR may contribute to the multistage process of leukemogenesis. The U3-LTR region, necessary for gene transactivational activity, also contains multiple transcription factor-binding sites that are essential for normal virus replication. To dissect the promoter activity and the gene transactivational activity of the U3-LTR, we conducted mutational analysis of the U3-LTR region of FeLV-A molecular clone 61E. We identified minimal nucleotide substitution mutants on the U3 LTR that did not disturb transcription factor-binding sites but abrogated its ability to transactivate the collagenase gene promoter. To determine if these mutations actually have altered any uncharacterized important transcription factor-binding site, we introduced these U3-LTR mutations into the full-length infectious molecular clone 61E. We demonstrate that the mutant virus was replication competent but could not transactivate cellular gene expression. These results thus suggest that the gene transactivational activity is a distinct property of the LTR and possibly not related to its promoter activity. The cellular gene transactivational activity-deficient mutant FeLV generated in this study may also serve as a valuable reagent for testing the biological significance of LTR-mediated cellular gene activation in the tumorigenesis caused by leukemia viruses.
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PMID:Mutations that abrogate transactivational activity of the feline leukemia virus long terminal repeat do not affect virus replication. 1275 76

Degradation of the extracellular matrix by matrix metalloproteinases (MMPs) is a crucial step in tumour invasion and metastasis. In human carcinomas, tumour cell-fibroblast interactions (TFIs) have been demonstrated to play a role in the up-regulation of MMP levels in tumours, and emmprin is a surface molecule on tumour cells that stimulates nearby fibroblasts to produce MMP-1, 2, and 3. T-cell lymphomas frequently show extranodal organ involvement and skin invasion, but a role for TFIs in their invasion has not been examined in detail. This study investigated TFIs in T-cell lymphomas with special reference to emmprin expression and MMP production. Immunohistochemically, only germinal centre cells and some histiocytes expressed emmprin in non-neoplastic lymph nodes (ten cases), while all T-cell lymphomas [14 cases of adult T-cell leukaemia/lymphoma (ATLL), six cases of lymphoblastic lymphoma, seven cases of anaplastic large cell lymphoma, and nine cases of angio-immunoblastic T-cell lymphoma] expressed emmprin strongly and diffusely. FACS analysis of peripheral blood from normal individuals revealed that small fractions of B-cells, T-cells, and monocytes expressed emmprin, whereas emmprin-expressing T-cells were much increased in number, and expressed this protein to a higher level, in ATLL patients. In vitro co-cultures of emmprin-positive HTLV-1-transformed lymphocytes (MT-2) and emmprin-negative human fibroblasts enhanced the production of pro-MMP-2 (gelatinase A) and active MMP-2, compared with cultures of either cell type alone. This stimulation was inhibited by an activity-blocking peptide against emmprin. Moreover, in histopathological sections from patients with ATL skin involvement, MMP-2 was demonstrated in fibroblasts around infiltrating ATL cells, but not in fibroblasts in non-diseased areas. In conclusion, emmprin is overexpressed by T-lymphoma cells, when compared with normal counterparts, and facilitates MMP-2 production via interactions with fibroblasts, which could play a role in stromal invasion by lymphoma cells.
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PMID:Emmprin, a cell surface inducer of matrix metalloproteinases (MMPs), is expressed in T-cell lymphomas. 1499

Local breast radiation therapy (RT) is associated with a 3-fold increased risk of secondary acute myeloid leukemia. As a first step in determining the mechanism(s) underlying this observation, we investigated the role of RT in mediating the active recruitment of hematopoietic stem cells (HSC) to the site of RT. Our results show in a mouse model that local RT delivered to the left leg causes preferential accumulation of bone marrow mononuclear cells to the irradiated site, with maximum signal intensity observed at 7 days post-RT. This is associated with a 4-fold higher number of donor-derived HSC present in the left leg, demonstrating recruitment of HSC to the site of RT. SDF-1, matrix metalloproteinase 2 (MMP-2), and MMP-9 expression is significantly increased in the irradiated bone marrow, and their inhibition significantly reduced HSC recruitment to the irradiated bone marrow. Our data show that local RT has significant systemic effects by recruiting HSC to the irradiated bone marrow site, a process mediated by SDF-1, MMP-2, and MMP-9. These results raise the possibility that the exposure of increased numbers of HSC at a local site to fractionated irradiation may increase the risk of leukemogenesis. Our data also suggest some opportunities for leukemia prevention in breast cancer patients undergoing RT.
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PMID:Local radiotherapy induces homing of hematopoietic stem cells to the irradiated bone marrow. 1797 51


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