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)

In epithelial cells, hepatocyte growth factor (HGF) activates a genetic program involving cell-cell dissociation ("scattering"), growth and invasiveness. The full program is not elicited by other growth factors like epidermal growth factor, and is aberrantly activated during cancer progression to the invasive-metastatic phenotype. To identify genes involved in the onset of invasive growth, we explored by cDNA microarrays the in vitro transcriptional response to HGF of mouse embryo liver cells. We identified osteopontin (OPN), a secreted matrix protein, as a major HGF transcriptional target. The wave of OPN induction is maximal at 6 h, in concomitance with the initiation of scattering, and is specific, because no other matrix protein among those explored by the microarray is affected. Interestingly, HGF, but not epidermal growth factor, promotes cell adhesion to OPN via the CD44 receptor. Scattering is significantly impaired by antibodies against OPN and CD44; conversely, constitutive OPN overexpression dramatically increases the motile and invasive responses to HGF, leading to disruption of the ordered morphogenetic program triggered by this ligand.
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PMID:Osteopontin is an autocrine mediator of hepatocyte growth factor-induced invasive growth. 1147 27

Osteopontin, a non-collageneous bone matrix protein, is produced in several human tumors but its role in cancer progression has been only partially elucidated. In this study we investigated the potential role of osteopontin in the malignancy of prostate cancer cells. Chemotaxis and chemoinvasion analyses revealed a dose-dependent increase in PC3 cell movement induced by osteopontin and a strict dependence of cell invasion on alphavbeta3 integrin function. The pattern of protease expression was modified by osteopontin and was characterized by an upregulation of plasminogen activators. Our findings suggest that osteopontin may confer selective malignant potential to prostate cancer cells through the enhancement of their invasive and proteolytic capability.
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PMID:Osteopontin modulates prostate carcinoma invasive capacity through RGD-dependent upregulation of plasminogen activators. 1192 18

Human colon cancer affects nearly 150,000 patients and results in 60,000 deaths in the United States per year. Despite significant advances in the management of the colon cancer patient, little change in survival rates has been appreciated over the past 50 years. The primary cause of death relates to the development of distant metastases to organs such as the liver and lungs. Colon cancer represents an important disease to study in order to better understand tumor progression and metastasis primarily because there is almost a stepwise advancement of the disease that is marked by measurable genetic and associated phenotypic alterations. Metastasis appears to be the end product of the development of 'Herculean' cell clones capable of independent growth, invasion, adhesion, avoidance of apoptosis, and angiogenesis. Although significant progress has been made in understanding the sequential genetic events leading to the development of cancer, the precise genes and the associated molecular pathways underlying the development of metastatic potential are still poorly understood. Moreover, our enhanced genetic knowledge has had relatively little trickle down effect on our clinical management of this deadly disease. For this reason, we undertook a comprehensive study to develop a molecular encyclopedia of new tumor markers and markers of tumor progression, some of which will hopefully prove useful in the clinical management of colon cancer patients by means of their capacity to detect and predict the stage and disease burden. This review will focus on the application of gene expression profiling technology to the problem of identifying new tumor markers and progression markers, and the discovery of osteopontin as the leading candidate clinical marker derived from a screen of approximately 12,000 named genes.
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PMID:Osteopontin and colon cancer progression. 1265 Jun 11

Angiogenesis, which is essential for tumor growth, is regulated by various angiogenic factors. Osteopontin (OPN) is expressed in various human tumors and is postulated to be involved in tumor progression. We have recently reported that culture medium with murine neuroblastoma C1300 cells transfected with OPN gene significantly stimulates human umbilical vein endothelial cell migration and induces neovascularization in mice by dorsal air sac assay. However, the effect of OPN on tumorigenesis as an angiogenic factor remains to be clarified. In this study, we injected the OPN-transfected C1300 cells and control cells into the nude mice subcutaneously. OPN-overexpressing C1300 cells significantly formed rapidly growing tumor as compared to the control cells in mice, although in vitro and in vivo cell growth rates were similar. In vivo tumorigenecity of these cells correlated with the amount of secreted OPN protein. In addition, neovascularization of OPN-transfected tumor was significantly increased in comparison with those of control cells by immunohistochemistry for CD31. In vitro chemoinvasiveness and gene expression of proteases including uPA, MMP2, 9, MT1-MMP, and cathepsin B, D, L, were not different between OPN-transfected and control cells determined with matrigel invasion assay and cDNA expression macroarray, respectively. Conclusively, these results strongly imply that OPN plays an important role in tumor growth through the enhancement of angiogenesis in vivo.
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PMID:Osteopontin overproduced by tumor cells acts as a potent angiogenic factor contributing to tumor growth. 1289 37

The interaction of osteopontin (OPN) with CD44 and alphavbeta3-integrin has been implicated in numerous signal transduction pathways that may promote cancer metastasis. CD44v6 is a splice variant of CD44 which has been identified as a marker of cancer progression. In this study, immortalized liver carcinoma cells (HepG2) were used to examine the effect of OPN on two isoforms of CD44: CD44 standard (CD44 s) and CD44v6. Western blots demonstrated that OPN up-regulated plasma membrane CD44v6 protein expression in a concentration- and time-dependent fashion. CD44v6 levels returned to control levels when OPN-alphavbeta3-integrin binding was blocked by an RGD peptide or tyrosine kinase activity was inhibited. OPN significantly increased CD44v6 protein synthesis, while simultaneously decreasing protein degradation. Steady-state mRNA levels of both CD44s and CD44v6 were unaltered in the presence of OPN stimulation. OPN increased HepG2 in vitro adhesion to hyaluronate (HA); excess soluble HA extinguished OPN-mediated HepG2 adhesion, indicating CD44 dependence. In conclusion, OPN binds to the alphavbeta3-integrin to increase plasma membrane CD44v6 expression and augment in vitro adhesion to HA. This may contribute to the mechanism by which OPN enhances metastatic behavior in hepatocellular cancer cells.
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PMID:Osteopontin-dependent CD44v6 expression and cell adhesion in HepG2 cells. 1294 55

Identifying molecular markers for colon cancer is a top priority. Using a pooled sample approach with Affymetrix GeneChip technology, we assayed colon cancers derived from a series of clinical stages to identify molecular markers of potential prognostic value. Of 12000 genes assessed, osteopontin emerged as the leading candidate tumor progression marker. Osteopontin is a secreted glycoprotein known to bind integrins and CD44. Its actual molecular function remains elusive but its increased expression correlates strongly with tumor progression.
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PMID:Osteopontin identified as colon cancer tumor progression marker. 1474 11

Osteopontin (OPN) is a multifunctional protein implicated in mammary development, neoplastic change, and metastasis. OPN is a target gene for beta-catenin-T cell factor signaling, which is commonly disturbed during mammary oncogenesis, but the understanding of OPN regulation is incomplete. Data base-assisted bioinformatic analysis of the OPN promoter region has revealed the presence of T cell factor-, Ets-, and AP-1-binding motifs. Here we report that beta-catenin, Lef-1, Ets transcription factors, and the AP-1 protein c-Jun each weakly enhanced luciferase expression from a OPN promoter-luciferase reporter construct, transiently transfected into a rat mammary cell line. OPN promoter responsiveness to beta-catenin and Lef-1, however, was considerably enhanced by Ets transcription factors including Ets-1, Ets-2, ERM, and particularly PEA3. PEA3 also enhanced promoter responsiveness to the AP-1 protein c-Jun. Co-transfection of cells with beta-catenin, Lef-1, PEA3, and c-Jun in combination increased luciferase expression by up to 280-fold and induced expression of endogenous rat OPN. In six human breast cell lines, those that highly expressed OPN also expressed PEA3 and Ets-1. Moreover, there was a significant association of immunocytochemical staining for OPN and one of beta-catenin, Ets-1, Ets-2, PEA3, or c-Jun, in the 29 human breast carcinomas tested. This study shows that beta-catenin/Lef-1, Ets, and AP-1 transcription factors can cooperate in a rat mammary cell line in stimulating transcription of OPN and that their independent presence is associated with that of OPN in a group of human breast cancers. These results suggest that the presence of these transcription factors in human breast cancer is responsible in part for the overexpression of OPN that, in turn, is implicated in mammary neoplastic progression and metastasis.
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PMID:Ets gene PEA3 cooperates with beta-catenin-Lef-1 and c-Jun in regulation of osteopontin transcription. 1499 May 65

Cancer progression depends on an accumulation of metastasis-supporting cell signaling molecules, which target signal transduction pathways and, ultimately, gene expression. One such molecule, osteopontin (OPN), represents a key molecular signaling event in tumor progression and metastasis. However, the transcriptional regulatory mechanisms that underlie OPN expression in the setting of breast cancer have not been well studied. In this regard, we have examined the differential transcriptional regulation of OPN in the murine mammary epithelial tumor cell lines, 4T1 and 4T07, which are sublines derived from the parental population of 410.4 cells from Balb/cfC3H mice. These lines are phenotypically heterogeneous in their metastatic behavior. 4T1 hematogenously metastasizes to the lung, liver, bone, and brain, whereas 4T07 is highly tumorigenic but fails to metastasize. The tumor growth and metastatic spread of 4T1 cells closely mimics stage IV breast cancer. We demonstrate that a Ras-independent, phosphoinositide-3 kinase-dependent, c-Jun N-terminal kinase-dependent phosphorylation of c-Jun results in binding of an AP-1 c-Jun homodimer to the OPN promoter in 4T1 cells. This differential up-regulation of OPN gene transcription and protein expression in 4T1 cells conveys in vitro correlates of a metastatic phenotype. These results provide new insight into the transcriptional regulation of OPN as a key mediator of metastatic behavior in malignancy.
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PMID:Differential osteopontin expression in phenotypically distinct subclones of murine breast cancer cells mediates metastatic behavior. 1534 45

Osteopontin (OPN) is a glyco-phosphoprotein that is expressed and secreted by numerous human cancers. OPN functions in cell adhesion, chemotaxis, macrophage-directed interleukin-10 (IL-10) suppression, stress-dependent angiogenesis, prevention of apoptosis, and anchorage-independent growth of tumor cells by regulating cell-matrix interactions and cellular signaling through binding with integrin and CD44 receptors. While constitutive expression of OPN exists in several cell types, induced expression has been detected in T-lymphocytes, epidermal cells, bone cells, macrophages, and tumor cells in remodeling processes such as inflammation, ischemia-reperfusion, bone resorption, and tumor progression. Recently, substantial evidence has linked OPN with the regulation of metastatic spread by tumor cells. However, the molecular mechanisms that define the role of OPN in tumor metastasis are incompletely understood. Transcriptional regulators that contribute to the induction of OPN expression have received significant attention as potential modulators of the OPN-mediated metastatic phenotype. The following review will discuss the molecular structure of OPN, the evidence for its functional role in tumor cell metastasis, the downstream signals that activate invasive mechanisms, and the recent reports concerning regulation of OPN transcription.
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PMID:The role of Osteopontin in tumor metastasis. 1550 63

Activated forms of Ras family members are prevalent in many cancers where Ras mutants transduce signals essential for transformation, angiogenesis, invasion and metastasis. As a cancer progression model, we used NIH3T3 cells to explore the mechanism of Ras-induced tumorigenesis. Ras family mutants H-RasV12 and Rit79L strongly induced foci formation, while Rho family mutants RhoA-QL, Rac1-QL and Cdc42-QL were less effective. A comparison of downstream transcriptional targets of Ras and Rho family members using a 26 383 element cDNA microarray revealed that the osteopontin (OPN) gene exhibited the best correlation between magnitude of gene expression change and level of foci formation (r=0.96, P<0.001). In association with H-RasV12- and Rit79L-mediated transformation, foci secreted OPN protein and upregulated the OPN receptor CD44, suggesting the novel initiation of an aberrant OPN-CD44-Rac autocrine pathway. In support of this were the following observations. First, RGD-deficient OPN protein-binding activity was present in H-RasV12-transformed cells but not in control cells, and binding activity was inhibited by the CD44 blocking antibody. Second, foci formation, cell invasion and Rac activity were induced by H-RasV12 and inhibited by the CD44 blocking antibody. Third, foci formation by H-RasV12 was substantially reduced by a short interfering RNA (siRNA) specifically targeting OPN expression for knockdown. Fourth, H-RasV12-mediated transformation was not blocked by the GRGDS peptide, suggesting that OPN effects were not mediated by the integrins. Lastly, OPN knockdown affected the downstream expression of 160 '2nd tier' genes, and at least a subset of these genes appears to be involved in transformation. Indeed, four genes were selected for knockdown, each resulting in a disruption of foci formation and/or invasion. These results underscore the role of aberrant autocrine signaling and transcriptional networking during tumorigenesis.
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PMID:Autocrine activation of an osteopontin-CD44-Rac pathway enhances invasion and transformation by H-RasV12. 1551 73

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