UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pericellular proteolysis plays a pivotal function in cell invasion, a hallmark of tumor growth and metastasis. The minidegradome constituted of two matrix metalloproteinases (MMP), i.e. MMP-2 and MT1-MMP, associated with tissue inhibitor of metalloprotease-2 (TIMP-2) and integrin (alpha(v)beta(3)) or CD(44), is mainly involved in such invasive program. It catalyzes matrix degradation but, alternatively, proteolytic exposure of matricryptic sites or matrikines liberation by those enzymes regulates either positively or negatively tumor cell migration. That applies to types I and IV collagens, elastin, laminin 5, as described here, but such phenomenon might be extended to other matrix macromolecules. The development of tumors from epithelium origin is related to aging. Senescent fibroblasts are characterized by increased expression of MMPs, (particularly collagenase-1 (MMP-1) and stromelysin-1 (MMP-3)) and deposited matrix by those aged cells was shown to favor cancer cell growth. Thus, compositional variation of matrix-surrounding tumor cells, with formation of matricryptic sites and matrikines, can be considered as one main epigenetic factor contributing to tumor progression. A matrix-directed pharmacological approach in cancer is now emerging.
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PMID:Proteolyzed matrix as a template for the regulation of tumor progression. 1288 58

We have previously shown that the integrin beta6 is neo-expressed in invasive oral squamous cell carcinoma (SCC) and is correlated with oral tumor progression. However, the mechanism by which the integrin beta6 promotes oral tumor progression is not well understood. The purpose of the present study was to determine whether integrin beta6 signaling activates Fyn and thus promotes oral squamous cell carcinoma progression. We analyzed the integrin beta6 signaling complex and investigated the function of these signaling molecules in oral SCC cells. We found that, upon ligation of the integrin beta6 with fibronectin, beta6 complexed with Fyn and activated it. The activation of Fyn recruited and activated focal adhesion kinase to this complex. This complex was necessary to activate Shc and to couple beta6 signaling to the Raf-ERK/MAPK pathway. This pathway transcriptionally activated the matrix metalloproteinase-3 gene and promoted oral SCC cell proliferation and experimental metastasis in vivo. These findings indicate that integrin beta6 signaling activates Fyn and thus promotes oral cancer progression.
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PMID:Alphavbeta6-Fyn signaling promotes oral cancer progression. 1291 46

Ultraviolet radiation may cause non-melanoma skin cancer by genetic and epigenetic events. In this study, we investigated in a squamous cell carcinoma cell line, SCL-1, whether UV irradiation modulates the expression of matrix metalloproteinases, known to be involved in tumor progression and metastasis by degradation of extracellular matrix components. UVA or UVB irradiation of SCL-1 resulted in a rapid transcriptional up-regulation and increased secretion of two members of the matrix metalloproteinase family, MMP-10 (stromelysin-2) and MMP-1 (interstitial collagenase). The increase in MMP-10 steady-state mRNA levels was detected 1 hour after UVA and 4 h after UVB irradiation, whereas MMP-1 was upregulated 4 h after UVA and 16 h after UVB irradiation of tumor cells. UV-induced phosphorylation of extracellular regulated kinases (ERK-1/2) and p38 stress kinase and increased binding of AP-1 transcription factor preceded the rapid stimulation of MMPs in SCL-1 cells. Incubation of cells with the MEK1/2 inhibitor U0126 or the p38 inhibitor SB202190 abolished the UVA and UVB mediated induction of MMP-1 and MMP-10. In conclusion, this study shows that UV irradiation of squamous cell carcinoma results in a rapid up-regulation of MMPs. Our results suggest that the time course of induction of target genes, like MMPs, differs between cell types depending on the stimulus.
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PMID:Induction of MMP-10 and MMP-1 in a squamous cell carcinoma cell line by ultraviolet radiation. 1497 49

Matrix metalloproteinase (MMP)-3 (stromelysin-1) degrades various components of the extracellular matrix as well as several non-matrix components; it has notably been shown to activate other MMPs relevant to cancer and metastasis, including MMP-9. MMP-3 gene expression in the tumor microenvironment could therefore contribute to cancer progression. Transcriptional regulation of MMP genes was often described to occur upon intercellular interactions, leading to overexpression of these genes by cancer and/or stromal cells. In the present work, we report that expression of MMP-3 in T lymphoma cells is transiently induced during specific intercellular contact with endothelial cells (EC). Moreover, mice injected with lymphoma cells expressing MMP-3 constitutively developed thymic lymphoma more rapidly than those injected with control lymphoma cells. We also found that overexpression of MMP-3 in lymphoma transfectants significantly improved their ability to migrate through the matrix when compared to cells transfected with the control vector. These results provide the first in vivo evidence that local expression of MMP-3 promotes lymphoma progression and indicate that MMP-3 expression is tightly regulated upon lymphoma cell/stromal cell interaction.
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PMID:Stromelysin-1 (MMP-3) is inducible in T lymphoma cells and accelerates the growth of lymphoid tumors in vivo. 1498 95

Elevated expression of matrix metalloproteinase-3 (MMP-3/stromelysin-1) is associated with a variety of tumor types, although its in vivo functional role remains unclear. In human and murine squamous cell carcinoma (SCC), MMP-3 is expressed in the stromal compartment at all of the stages of tumor progression and is expressed by the malignant epithelial cells in late-stage, highly invasive tumors. To elucidate whether MMP-3 plays a causal role during SCC, wild-type and MMP-3 null mice were subjected to chemical carcinogenesis procedures by topical application of either the complete carcinogen 1-methyl-3-nitro-1-nitroso-guanidine or two-stage initiation and promotion with 7,12-dimethylbenz[a]anthracene and 12-O-tetradecanoylphorbol-13-acetate. Contrasting with our expectations, tumors originating on MMP-3 null mice had enhanced initial tumor growth rates as compared with control animals, although there was no difference in tumor onset or incidence. This elevated rate in growth was coupled with an elevated proliferative index and a reduced vasculature density but with no significant effect on apoptosis. Tumors from MMP-3 null mice had a prevalence of undifferentiated spindle tumors as compared with controls, which was concomitant with a higher percentage of MMP-3 null mice evidencing surface lung metastases. Tumor progression in MMP-3 null mice was inversely associated with leukocyte infiltration, in which an overall reduction in tumor-associated macrophages and neutrophils was evident. We propose that MMP-3 is expressed as a protective response and plays an important role in host defense during SCC tumorigenesis.
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PMID:A protective role for matrix metalloproteinase-3 in squamous cell carcinoma. 1546 88

The tumour microenvironment can be a potent carcinogen, not only by facilitating cancer progression and activating dormant cancer cells, but also by stimulating tumour formation. We have previously investigated stromelysin-1/matrix metalloproteinase-3 (MMP-3), a stromal enzyme upregulated in many breast tumours, and found that MMP-3 can cause epithelial-mesenchymal transition (EMT) and malignant transformation in cultured cells, and genomically unstable mammary carcinomas in transgenic mice. Here we explain the molecular pathways by which MMP-3 exerts these effects: exposure of mouse mammary epithelial cells to MMP-3 induces the expression of an alternatively spliced form of Rac1, which causes an increase in cellular reactive oxygen species (ROS). The ROS stimulate the expression of the transcription factor Snail and EMT, and cause oxidative damage to DNA and genomic instability. These findings identify a previously undescribed pathway in which a component of the breast tumour microenvironment alters cellular structure in culture and tissue structure in vivo, leading to malignant transformation.
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PMID:Rac1b and reactive oxygen species mediate MMP-3-induced EMT and genomic instability. 1600 Oct 73

It is now widely accepted that elements of the cellular and tissue microenvironment are crucial regulators of cell behavior in culture and homeostasis in vivo, and that many of the same factors influence the course of tumor progression. Less well established is the extent to which extracellular factors actually cause cancer, and the circumstances under which this may occur. Using physiologically relevant three-dimensional culture assays and transgenic animals, we have explored how the environmental and architectural context of cells, tissues, and organs controls mammary-specific gene expression, growth regulation, apoptosis, and drug resistance and have found that loss of tissue structure is a prerequisite for cancer progression. Here we summarize this evidence and highlight two of our recent studies. Using mouse mammary epithelial cells, we show that exposure to matrix metalloproteinase-3 (MMP-3) stimulates production of reactive oxygen species (ROS) that destabilize the genome and induce epithelial-mesenchymal transition, causing malignant transformation. Using a human breast cancer progression series, we find that ADAM-dependent growth factor shedding plays a crucial role in acquisition of the malignant phenotype. These findings illustrate how normal tissue structure controls the response to extracellular signals so as to preserve tissue specificity and growth status.
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PMID:Microenvironmental regulators of tissue structure and function also regulate tumor induction and progression: the role of extracellular matrix and its degrading enzymes. 1686 71

Matriptase/MT-SP1, a type II membrane serine protease widely expressed in normal epithelial cells and human carcinoma cells, is thought to be involved in cancer progression. To clarify this possibility, we overexpressed exogenous matriptase in the human stomach cancer cell line AZ521. In vitro, the matriptase transfectant (Mat-AZ521) and the control transfectant (Mock-AZ521) showed a similar growth rate, although the saturation cell density was significantly higher with the Mat-AZ521. When implanted into nude mice subcutaneously or intraperitoneally, Mat-AZ521 cells grew faster and produced much larger solid tumors than Mock-AZ521 cells. The overexpression of matriptase in AZ521 cells shortened the survival time of tumor-bearing mice. Histological analysis showed that both the number and the size of blood vessels in tumor tissues were significantly higher in the Mat-AZ521 tumors than the Mock-AZ521 ones. Moreover, it was found that purified matriptase activated one of the important matrix metalloproteinases, stromelysin (MMP-3). These results suggest the possibility that the matriptase-dependent activation of MMP-3, as well as the direct activity of matriptase, promotes tumor growth and angiogenesis by enhancing extracellular matrix degradation in tumor cell microenvironments.
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PMID:Matriptase activates stromelysin (MMP-3) and promotes tumor growth and angiogenesis. 1699 19

Matrix metalloproteinases (MMPs) are enzymes that digest components of the extracellular matrix (ECM) as well as cell surface receptors for soluble factors and junctional proteins involved in cell-cell and cell-ECM interactions. MMPs are involved in many physiological processes that require tissue remodeling but are also expressed in nearly all tumors, where they stimulate tumor growth, invasion, and metastasis. Previous studies have shown that expression of stromelysin-1/MMP-3 in the mammary glands of transgenic mice causes the production of invasive carcinomas; our recent investigations provide insight into how MMPs can promote the development of such tumors. We show that exposing mouse mammary epithelial cells to MMP-3 stimulates epithelial-mesenchymal transition (EMT), a phenotypic alteration in which epithelial cells acquire invasive mesenchymal characteristics. EMT is a necessary component of embryonic development, but acquisition of EMT characteristics by cancer cells facilitates invasion and metastasis. MMP-3-induced EMT involves induction of Snail, a transcription factor long studied for its role in physiological EMT but which is increasingly recognized as a factor involved in tumor progression and malignancy. In this review, we examine how MMPs and Snail function in tumor progression and how identification of an MMP-Snail signaling axis provides insight into new anticancer therapeutic strategies.
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PMID:Matrix metalloproteinase-induced epithelial-mesenchymal transition: tumor progression at Snail's pace. 1741 42

The autocrine motility factor (AMF) is a multifunctional protein that is involved in tumor progression including enhanced invasiveness via induction of matrix metalloproteinase-3 (MMP3). The increase in MMP3 was found in an AMF-high production tumor cell line, and c-Jun, c-Fos and mitogen-activated protein kinases (MAPKs) were also highly phosphorylated compared with the parent line. AMF stimulation induced the rapid phosphorylation of the cellular MAPK cascade and MMP3 secretion, which was blocked using a specific MAPK inhibitor. Results of this study suggest that AMF stimulation stimulates MMP3 expression via a MAPK signaling pathway.
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PMID:Autocrine motility factor stimulates the invasiveness of malignant cells as well as up-regulation of matrix metalloproteinase-3 expression via a MAPK pathway. 1848

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