UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epidemiological evidence suggests an inverse relationship between prostate cancer and serum vitamin D levels. We examined the ability of cholecalciferol (vitamin D(3)), a calcitriol precursor, to inhibit or reverse cellular changes associated with malignant transformation and invasion and explored its mechanisms of action. The RWPE2-W99 human prostate epithelial cell line, which forms slow-growing tumors in nude mice, was used because it mimics the behavior of the majority of primary human prostate cancers. Cholecalciferol, at physiological levels: (i) inhibited anchorage-dependent and -independent growth; (ii) induced differentiation by decreasing vimentin expression with a concomitant decrease in motility/chemotaxis; (iii) decreased MMP-9 and MMP-2 activity with concomitant decrease in invasion; and (iv) exerted its effects by up-regulating vitamin D receptor (VDR), retinoid-X receptor-alpha (RXR-alpha), and androgen receptor (AR) in a dose-dependent manner. Furthermore, we found that RWPE2-W99 prostate cancer cells, similar to RWPE-1 cells (Tokar and Webber. Clin Exp Metast 2005; 22: 265-73), constitutively express the enzyme 25-hydroxylase CYP27A1 which is markedly up-regulated by cholecalciferol. Cholecalciferol has effects similar to those of calcitriol on growth, MMP activity, and VDR. The ability of CYP27A1 to catalyze the conversion of cholecalciferol to 25(OH)D(3) and of 25(OH)D(3) to calcitriol has been reported. RWPE2-W99 cells, similar to RWPE-1 cells, appear to have the rare ability to locally convert cholecalciferol to the active hormone calcitriol. Because it can inhibit cellular changes associated with malignant transformation and invasion, we propose that cholecalciferol may be an effective agent for the treatment of prostate cancer.
Clin Exp Metastasis 2005
PMID:Cholecalciferol (vitamin D3) inhibits growth and invasion by up-regulating nuclear receptors and 25-hydroxylase (CYP27A1) in human prostate cancer cells. 1615 55

The Runx2 (Cbfa1/AML3) transcription factor and matrix metalloproteinase 9 (MMP9) are key regulators of growth plate maturation and bone formation. The genes for both proteins are characteristic markers of breast and prostate cancer cells that metastasize to bone. Here we experimentally addressed the compelling question of whether Runx2 and MMP are functionally linked. By cDNA expression array analysis, we identified MMP9 as a novel downstream target of Runx2. Like that of MMP13, MMP9 expression is nearly depleted in Runx2 mutant mice. Chromatin immunoprecipitation and electrophoretic mobility shift assays revealed the recruitment of Runx2 to the MMP9 promoter. We show by mutational analysis that the Runx2 site mediates transactivation of the MMP9 promoter in osteoblasts (MC3T3-E1) and nonosseous (HeLa) cells. The overexpression of Runx2 by adenovirus delivery in nonmetastatic (MCF-7) and metastatic breast (MDA-MB-231) and prostate (PC3) cancer cell lines significantly increases the endogenous levels of MMP9. The knockdown of Runx2 by RNA interference decreases MMP9 expression, as well as that of other Runx2 target genes, including the genes for MMP13 and vascular endothelial growth factor. Importantly, we have demonstrated using a cell invasion assay that Runx2-regulated MMP9 levels are functionally related to the invasion properties of cancer cells. These results are consistent with Runx2 control of multiple genes that contribute to the metastatic properties of cancer cells and their activity in the bone microenvironment.
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PMID:The Runx2 osteogenic transcription factor regulates matrix metalloproteinase 9 in bone metastatic cancer cells and controls cell invasion. 1616 39

The heterogeneity of proteoglycans (PG)s contributes to their functional diversity. Many functions depend on their ability to bind and modulate the activity of components of the extracellular matrix (ECM). The ability of PGs to interact with other molecules, such as growth factors, is largely determined by the fine structure of the glycosaminoglycan (GAG) chains. Tumorigenesis is associated with changes in the PG synthesis. Heparan sulfate (HS) PGs are involved in several aspects of cancer biology including tumor progression, angiogenesis, and metastasis. PGs can have both tumor promoting and tumor suppressing activities depending on the protein core, the GAG attached, molecules they associate with, localization, the tumor subtype, stages, and degree of tumor differentiation. Perlecan is an angiogenic factor involved in tumor invasiveness. The C-terminal domain V of perlecan, named endorepellin, has however been shown to inhibit angiogenesis. Another angiogenic factor is endostatin, the COOH-terminal domain of the part-time PG collagen XVIII. Glypicans and syndecans may promote local cancer cell growth in some cancer tissues, but inhibit tissue invasion and metastasis in others. The GAG hyaluronan (HA) promotes cancer growth by providing a loose matrix for migrating tumor cells and mediates adhesion of cancer cells. HSPG degrading enzymes like heparanase, heparitinase, and other enzymes such as hyaluronidase and MMP are also important in tumor metastasis. Several different treatment strategies that target PGs have been developed. They have the potential to be effective in reducing tumor growth and inhibit the formation of metastases. PGs are also valuable tumor markers in several cancers.
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PMID:Decreasing the metastatic potential in cancers--targeting the heparan sulfate proteoglycans. 1617

The search for an MMP inhibitor with anticancer efficacy is a nearly three-decade endeavor. This inhibitor is yet to be found. The reasons for this failure include shortcomings in the chemistry of these compounds (including broad MMP sub-type selectivity, metabolic lability, and toxicity) as well as the emerging, and arguably extraordinary, complexity of MMP cell (and cancer) biology. Together these suggest that the successful anticancer inhibitor must possess MMP selectivity against the MMP subtype whose involvement is critical, yet highly temporally (with respect to metastatic progression) and mechanistically (with respect to matrix degradation) regulated. This review summarizes the progression of chemical structure and mechanistic thinking toward these objectives, with emphasis on the disappointment, the perseverance, and the resilient optimism that such an inhibitor is there to be discovered.
Cancer Metastasis Rev 2006 Mar
PMID:Recent advances in MMP inhibitor design. 1668 May 77

Reactive oxygen species (ROS) are recently proposed to be involved in tumor metastasis which is a complicated processes including epithelial-mesenchymal transition (EMT), migration, invasion of the tumor cells and angiogenesis around the tumor lesion. ROS generation may be induced intracellularly, in either NADPH oxidase- or mitochondria-dependent manner, by growth factors and cytokines (such as TGFbeta and HGF) and tumor promoters (such as TPA) capable of triggering cell adhesion, EMT and migration. As a signaling messenger, ROS are able to oxidize the critical target molecules such as PKC and protein tyrosine phosphates (PTPs), which are relevant to tumor cell invasion. PKC contain multiple cysteine residues that can be oxidized and activated by ROS. Inactivation of multiple PTPs by ROS may relieve the tyrosine phosphorylation-dependent signaling. Two of the down-stream molecules regulated by ROS are MAPK and PAK. MAPKs cascades were established to be a major signal pathway for driving tumor cell metastasis, which are mediated by PKC, TGF-beta/Smad and integrin-mediated signaling. PAK is an effector of Rac-mediated cytoskeletal remodeling that is responsible for cell migration and angiogenesis. There are several transcriptional factors such as AP1, Ets, Smad and Snail regulating a lot of genes relevant to metastasis. AP-1 and Smad can be activated by PKC activator and TGF-beta1, respectively, in a ROS dependent manner. On the other hand, Est-1 can be upregulated by H2O2 via an antioxidant response element in the promoter. The ROS-regulated genes relevant to EMT and metastasis include E-cahedrin, integrin and MMP. Comprehensive understanding of the ROS-triggered signaling transduction, transcriptional activation and regulation of gene expressions will help strengthen the critical role of ROS in tumor progression and devising strategy for chemo-therapeutic interventions.
Cancer Metastasis Rev 2006 Dec
PMID:The signaling mechanism of ROS in tumor progression. 1716 Jul 8

Matrix metalloproteinase 2 (MMP2) is important in breast cancer (BC) invasion and metastasis. We previously reported that BC brain metastases, in a rat syngeneic model developed in our laboratory, have high expression and activity of MMP2. The MMP2 mechanism of action in the brain is still under intense scrutiny. To study the role of MMP2 in the development of BC brain metastasis we transfected ENU1564 rat mammary adenocarcinoma cells with tissue inhibitor of MMP2 (TIMP2). Animals inoculated with ENU1564-TIMP2 cells had decreased orthotopic tumor growth, decreased orthotopic metastatic behavior and did not develop brain metastases. These results were associated with decreased MMP2 activity, demonstrated by gel zymography. Mitogen activated protein kinase (MAPK) pathway components, such as ERK1/2, have been correlated to MMP expression and/or astrocyte activity. We found that BC brain metastases have peripheral astrocyte reactivity and higher expression of glial fibrillary acidic protein (GFAP) and phosphorylated-ERK1/2 (p-ERK1/2). Additionally, rat astrocyte-conditioned media increased in vitro invasion of ENU1564 cancer cells and increased expression of MMP2 and p-ERK1/2. Blockage of ERK1/2 phosphorylation by treatment with MEK inhibitor (PD98059) decreased the expression of MMP2 in cancer cells grown in rat astrocyte-conditioned media. Our results are highly suggestive that MMP2 plays a role in the development of BC metastases, in particular to the brain. Furthermore, our results suggest that astrocyte factors and the ERK1/2 signaling pathway may be associated with BC brain metastasis development; and that ERK1/2 may regulate MMP2 in a way that is modifiable by astrocyte factors.
Clin Exp Metastasis 2007
PMID:MMP2 role in breast cancer brain metastasis development and its regulation by TIMP2 and ERK1/2. 1750 12

Membrane type 1-matrix metalloproteinase (MT1-MMP) is a major mediator of collagen I degradation. In human samples, we show that prostate cancer cells in skeletal metastases consistently express abundant MT1-MMP protein. Because prostate cancer bone metastasis requires remodeling of the collagen-rich bone matrix, we investigated the role of cancer cell-derived MT1-MMP in an experimental model of tumor-bone interaction. MT1-MMP-deficient LNCaP human prostate cancer cells were stably transfected with human wild-type MT1-MMP (MT1wt). Furthermore, endogenous MT1-MMP was down-regulated by small interfering RNA in DU145 human prostate cancer cells. Intratibial tumor injection in severe combined immunodeficient mice was used to simulate intraosseous growth of metastatic tumors. LNCaP-MT1wt cells produced larger osseous tumors than Neo control cells and induced osteolysis, whereas DU145 MT1-MMP-silenced transfectants induced osteogenic changes. In vitro assays showed that MT1wt overexpression enhanced collagen I degradation, whereas MT1-MMP-silencing did the opposite, suggesting that tumor-derived MT1-MMP may contribute directly to bone remodeling. LNCaP-MT1wt-derived conditioned medium stimulated in vitro multinucleated osteoclast formation. This effect was inhibited by osteoprotegerin, a decoy receptor for receptor activator of nuclear factor kappaB ligand, and by 4-[4-(methanesulfonamido) phenoxy] phenylsulfonyl methylthiirane, an MT1-MMP inhibitor. Our findings are consistent with the hypothesis that prostate cancer-associated MT1-MMP plays a direct and/or indirect role in bone matrix degradation, thus favoring intraosseous tumor expansion.
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PMID:Prostate cancer-associated membrane type 1-matrix metalloproteinase: a pivotal role in bone response and intraosseous tumor growth. 1752 76

Levels of matrix metalloproteinase (MMP-2) and endogenous inhibitors (TIMP-1,-2) in tumor and blood serum from patients with squamous-cell laryngeal carcinoma were studied. Immunohistochemical investigation showed much higher MMP-9 expression (76.9%) and TIMP-1 (100%) in tumor tussue than MMP-2 (23.8%) and TIMP-2 (33.3%). Therefore, MMP-9 and TIMP-1 levels in blood serum alone were assayed. TIMP-1 levels in serum from patients were significantly higher than those in healthy subjects (p=0.023). High TIMP-1 levels in blood serum were recorded in patients with stage III laryngeal carcinoma and differed significantly from control (p=0.009). However, no correlation was found between them and MMP concentration in blood serum, on the one hand, and tumor size, on the other. High TIMP-1 levels in blood serum were recorded in patients free from metastasis to regional lymph nodes (124.5+39.5 ng/ml); however, they were lower than in those with such metastases (102.7+10.9 ng/ml) and significantly lower than in healthy subjects (p=0.023). There was a correlation between MMP-9 expression in tumor tissue, on the one hand, and involvement of regional lymph nodes, on the other, (p=0.054). In blood serum from patients showing tumor regression by 75-100% after radiotherapy, TIMP-1 levels were higher than in those with relatively lower response to the same treatment (p=0.072). Hence, assay of TIMP-1 levels in blood serum and MMP-9 concentration in tumor tissue may be used for assessment of tumor processes alongside standard procedures. Moreover, the former may be instrumental in predicting laryngeal response to radiotherapy.
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PMID:[Assay of matrix metalloproteinase levels and their endogenous inhibitors in patients with laryngeal carcinoma]. 1764 30

Bone morphogenetic protein-6 (BMP-6) has been strongly implicated in prostate cancer development and bone metastasis. Our previous data showed that BMP-6 mRNA was absent in patients with benign prostatic hyperplasia, but evident in primary tumours with established secondary skeletal metastases. To examine the role of BMP-6 in prostate cancer progression, we have developed a BMP-6-regulatable, doxycycline-inducible gene expression system. BMP-6 induction by doxycycline addition led to increased levels of BMP-6 RNA and protein, associated with nuclear translocation of SMADs and activation of the downstream target gene Id-1. BMP-6 protein did not enhance the proliferation rate of PC3M cells but did significantly increase the rate of migration and invasion in both PC3M and DU145 cells. Increased metalloproteinase (MMP-1 and MMP-9) mRNA levels were also observed following BMP-6 induction. Luciferase reporter assays confirmed BMP-6-mediated activation of MMP-1 and MMP-9 promoters, indicating direct transcriptional activation of MMPs by BMP-6. BMP-6 stimulation also led to an increase in phosphorylation levels of MAPK proteins. We next examined the effects of BMP-6 on the downstream gene Id-1 in a cohort of prostate cancer patients. A tissue microarray (TMA) was constructed and samples stained for BMP-6 and Id-1 expression. We observed a significant increase in the intensity of staining of epithelial BMP-6 in the cancer cases compared to the benign cases (Mann-Whitney U test, p < 0.0005) and in the intensity of staining of epithelial Id-1 in the cancer cases compared to the benign cases (Mann-Whitney U test, p = 0.015). We further observed a significant positive correlation between epithelial staining for Id-1 and BMP-6 (p = 0.001) across all samples for both benign and cancer cases. These data demonstrate that BMP-6 promotes migration and invasion of prostate cancer cells, potentially through activation of Id-1 and MMP activation.
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PMID:BMP-6 over-expression in prostate cancer is associated with increased Id-1 protein and a more invasive phenotype. 1807 88

Osteolysis is an important process in the establishment of bone metastasis. The role which cancer cells play in this process is not fully understood. In this study, we first established a reproducible in vivo bone metastasis model using two types of tumor cells, human breast adenocarcinoma (MDA-231) and human lung squamous cell carcinoma (Hara cells), and examined in vitro characteristics of the tumor cells. Tumor cells injected into the left heart ventricle of nude mice preferentially metastasized to bone, 6 weeks after the inoculation. Histological observation of the bone metastatic lesion showed that tumor cells invaded the bone marrow, and osteoclasts adjacent to fibroblasts were actively resorbing the bone matrix. In vitro analysis of the tumor cells showed that MDA-231 cells express cathepsin K, matrix metalloproteinase 9 (MMP-9), and membrane type-1 matrix metalloproteinase (MT1-MMP), all of which are believed to play an important role in osteoclastic bone resorption. In contrast, Hara cells do not express cathepsin K and MT1-MMP. MMP-9 was expressed at a low level. To assess the osteolytic activity of the tumor cells, an in vitro pit assay was performed. The rabbit osteoclasts formed numerous pits on a dentin slice after 18 h of incubation, whereas tumor cells by themselves did not. Taken together, we conclude that MDA-231 and Hara cells, which metastasize to the bone in vivo, do not have enough ability to achieve bone resorption by themselves, but rather achieve it through activation of fibroblast like cells and osteoclasts.
Clin Exp Metastasis 2008
PMID:Human breast adenocarcinoma (MDA-231) and human lung squamous cell carcinoma (Hara) do not have the ability to cause bone resorption by themselves during the establishment of bone metastasis. 1830 92

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