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

Pancreatic cancer is an important cause of death from cancer throughout the world. Until recently, pancreatic cancer was a poorly understood disease. Research in the past decade has shown conclusively, however, that pancreatic cancer is primarily genetic in nature. Inactivation with a variety of tumor-suppressor genes such as p53, p16, and DPC4, and genome-maintenance genes such as BRCA2, coupled with the activation of oncogenes such as K-ras, are a few of the mutations that trigger the growth of cancerous cells. The genetic profile of pancreatic cancer has reshaped the nomenclature describing histological progression in pancreatic ductal tumorigenesis. K-ras mutations frequently occur early, whereas changes in the expression and genetic integrity of the p16 gene appear in intermediate lesions, and the inactivation of the p53 and DPC4 genes and activation of telomerase occur late in the neoplastic progression. Although the majority of pancreatic cancers occur sporadically, a minority has been shown to aggregate in families and has aided our understanding of pancreatic tumorigenesis. An improved understanding of the genetics of pancreatic cancer should lead to the development of gene-based screening tests and novel rational therapies.
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PMID:[Genetics of pancreatic cancer: recent advances in molecular diagnosis]. 1209 99

Smad4/DPC4 is a tumor suppressor gene frequently inactivated in gastrointestinal carcinomas. Smad4 encodes a key intracellular transmitter for signals of the TGF-beta superfamily of cytokines. TGF-beta potently inhibits the growth of normal epithelial cells but tumor cells are frequently resistant; thus, it has been assumed that loss of Smad4 during tumor progression relieves this inhibition. Mediating TGF-beta responses is only one of the many putative functions of Smad4 as a signaling molecule. Smad proteins are versatile transcriptional co-modulators whose activities depend on the genetic makeup of a cell. We have used restoration of Smad4 in deficient cancer cells as an unbiased approach to decipher Smad4's tumor suppressor functions. Stable reexpression of Smad4 in human colon and pancreatic cancer cells potently suppressed tumor growth in vivo in nude mice. Surprisingly, it was not adequate to suppress tumor cell growth in vitro, nor did it restore TGF-beta responsiveness. Rather, Smad4 restoration influenced angiogenesis, decreasing expression of vascular endothelial growth factor and increasing expression of thrombospondin-1. These findings suggest that the acquisition of TGF-beta resistance and loss of Smad4 may be independent consecutive events in the tumorigenic process. They define the control of an angiogenic switch as a novel alternative mechanism of tumor suppression for Smad4.
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PMID:Smad4 transcriptional pathways and angiogenesis. 1262 15

Our understanding of the molecular pathology of pancreatic carcinoma has improved tremendously over the past few years due to the development of sophisticated molecular techniques. This knowledge has led to the postulation of a pancreatic tumor progression model. This article describes the molecular oncogenesis of pancreatic carcinoma and points out potential targets for therapeutic interventions. Pancreatic cancer is characterized by the sequential acquisition of somatic mutations in the proto-oncogene K-RAS and the tumor suppressors INK4a,TP53 and DPC4/SMAD4 and by epigenetic alterations, including the overexpression of the "epidermal growth factor" receptor/ligand system. These genetic changes cause a profound disturbance to cell cycle regulation and continuous growth. Further analysis of the underlying molecular mechanisms will offer new diagnostic and therapeutic options and hopefully improve the outcome of this grim disease in the future.
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PMID:[Pancreatic carcinogenesis. Clinical implications]. 1264 72

We demonstrated previously that restoration of chromosome 18 suppressed growth of pancreatic cancer cells in vitro, as well as that of tumors inoculated into nude mice. We also demonstrated that loss of 18q was associated with poor prognosis. Hence there is the possibility that the 18q arm harbors a gene(s) implicated in tumor progression and/or metastasis. In this study, we evaluated the effect of restoring chromosome 18 on metastasis in a few human pancreatic cancer cell lines with and without inactivation of SMAD4. After microcell-mediated chromosome 18 transfer, hybrid cells showed more than a 10-fold weaker metastatic ability than corresponding parental cells; mice injected with 1.25 x 10(6)/250 micro l hybrid clones via tail vein had less than one-tenth of the number of macroscopic metastases in the lung when compared with the control cells. Microscopic examination confirmed the decrease in the number of metastatic lesions. After inoculation of hybrid cells, more than 80% of the high-power fields showed no micrometastases, contrasting with their abundance after using the parental cells. Hybrid cells restored maspin expression irrespective of SMAD4 status in corresponding parental cells. On the other hand, significantly lower vascular endothelial growth factor and matrix metalloproteinase 2 secretion was observed by measuring levels in the conditioned media (CM); the averages were 22% and 20%, respectively. Angiogenesis assays using in vivo Matrigel plugs demonstrated that less neovascularization was observed in nude mice with hybrid cells than with corresponding parental cells. When cells were treated with CM from hybrids, the migration of human umbilical vascular endothelial cells was decreased, but it was partially restored with anti-vascular endothelial growth factor neutralizing antibody, as compared with CM from parental cells. These data represent the first functional evidence suggesting that chromosome 18q encodes a gene that strongly suppresses metastatic activity, possibly through dormancy.
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PMID:Inserting chromosome 18 into pancreatic cancer cells switches them to a dormant metastatic phenotype. 1458 80

To date, the events that mediate tumor progression in pancreatic cancer are still poorly understood. Cytogenetic, allelotype, and somatic cell hybrid studies in human pancreatic adenocarcinoma have suggested that chromosome 18 may carry tumor suppressor genes (TSGs), including SMAD4. We previously identified that LOH of 18q at the SMAD4 locus, along with LOHs on 17p and 12q, positively associated with poor prognoses of pancreatic cancer patients. However, restoration of the SMAD4 gene did not suppress in vitro proliferation of pancreatic cancer cells that harbored homozygous deletion of this gene. An intraductal papillary mucinous neoplasm (IPMN ) is thought to be one of the premalignant lesions of the pancreas that progresses to carcinoma. Although there were frequent LOH (7/14, 50%) at the SMAD4 locus in IPMN samples, SMAD4 protein was observed immunohistochemically in tumor cells, and no mutations of the SMAD4 gene were observed, suggesting that it is the existence of a TSG in 18q, other than SMAD4, that suppresses cell growth. To functionally assess the activity of chromosome 18 in pancreatic cancer, we transferred a normal copy of the chromosome into pancreatic ductal carcinoma cells with and without completely inactivated SMAD4. In this study, in vitro growth of the hybrid cells was significantly suppressed compared with the parental cells, regardless of the initial SMAD4 status. To estimate the metastatic ability of the hybrids, we used a lung colonization model. At the end of the experiment, there was significant suppression of the number of surface metastases developing in mice injected with hybrids in comparison with those injected with parental cells. To identify and characterize genes that are involved in the progression of pancreatic cancer, we used micro-array expression analysis employing a 20k oligo-array system. It was revealed that there was increased expression of 4 genes relating to apoptosis in the 18 chromosome hybrids cells compared with the parental cells. We are now analyzing the function of these genes.
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PMID:The role of chromosome 18 abnormalities in the progression of pancreatic adenocarcinoma. 1508 78

TGF-beta is a multifunctional cytokine which regulates cell growth, extracellular matrix deposition, cell differentiation, and immunosuppression etc. The signal is mainly mediated through Smad pathway to inhibit epithelial cell growth. In 50% of pancreatic cancer, Smad4/DPC4 gene is deleted or mutated, which might cause pancreatic carcinogenesis and be associated with highly invasive and metastatic character of the disease. On the other hand, TGF-beta signal itself has recently been shown to act in favor of cancer cells, especially in the late phase of tumor progression. In Smad4-inactivated pancreatic cancer cells, TGF-beta signal regulates a number of genes involved in tumor suppression and progression. The regulated genes and signaling pathways of TGF-beta signal should be investigated to obtain an effective therapeutic target molecule for pancreatic cancer.
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PMID:[TGF-beta signaling pathway in pancreatic cancer cells]. 1528 39

While Wnt and Ras signaling pathways are activated during progression of colorectal cancers, many of their important downstream targets remain to be elucidated. The gastrin gene encodes for a family of peptide growth factors that are commonly upregulated in colorectal neoplasia. Previously, we showed that the Wnt signaling pathway moderately stimulates the gastrin promoter. To determine whether Ras signaling can cooperate with Wnt signaling in transcriptional regulation of gastrin gene expression, we have analyzed the response of murine gastrin promoter-reporter gene constructs to combinations of oncogenic stimulation in transient transfection assays. We found a strong (25- to 40-fold) synergistic stimulation of the gastrin promoter by the combination of oncogenic beta-catenin and K-ras overexpression. Deletion analysis localized the response element to an area between -140 and -110bp upstream in the murine gastrin promoter. Electrophoretic mobility shift assays detected a complex containing beta-catenin/TCF, AP1, and SMAD3/4 transcription factors that bound to a DNA element through AP1 and SMAD binding sites. Gastrin promoter activation could be further enhanced or suppressed by the co-expression of wild type SMAD4 or dominant negative mutant of SMAD4, respectively, and abrogated by the PI3K inhibitor, LY20004, but not by the MEK inhibitor, PD98059. Taken together, our data strongly suggest that oncogenic Wnt and Ras signaling pathways can synergistically induce gastrin expression, possibly contributing to neoplastic progression.
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PMID:Synergistic activation of the murine gastrin promoter by oncogenic Ras and beta-catenin involves SMAD recruitment. 1613

Lymphovascular invasion (LVI) is a biological manifestation of aggressive behavior in colorectal cancer. This study sought to identify and examine the association between genetic and pathologic alterations implicated in this invasive tumor progression. We consecutively recruited 81 and 79 colorectal cancer patients with and without LVI, respectively. Biological changes were evaluated by clinicopathological parameters together with CEA and E-cadherin expressions using immune staining. Allelic loss or MSI was examined using 10 microsatellite markers on chromosomes 10, 16, 18, and TGFbetaRII, possibly associated with colorectal cancer. The germline mutation of BMPR1A and SMAD4 was also sought. Tumor stage and lymph node metastasis were significantly greater in patients with LVI tumor than without it (P < 0.001). Decreased CEA expression was closely correlated with allelic loss or MSI at D16S421, D18S46, and D18S474 (P = 0.004-0.047). Allelic loss at D10S14 was specific to LVI tumors (P = 0.007). Using multivariate analysis, allelic loss at D18S46 significantly correlated with histological differentiation (P = 0.02). In addition, allelic loss and MSI at D18S474, histological differentiation, and expression of CEA and E-cadherin were closely associated with the progression of LVI (P = 0.005-0.049). However, no germline mutation in BMPR1A or SMAD4 was detected in all patients regardless of LVI status. In summary, in a subset of colorectal cancers, histological differentiation and expression of CEA or E-cadherin appear to determine aggressive behavior such as LVI. These changes are closely associated with chromosomal alterations at 10q22-23, 16q22 and 18q21, which carry several tumor suppressor genes.
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PMID:Genetic and pathologic changes associated with lymphovascular invasion of colorectal adenocarcinoma. 1628 85

There is increasing evidence that epithelial to mesenchymal transition (EMT) is involved in cancer progression. Because local invasion and metastasis occurs early in the pathogenesis of esophageal adenocarcinoma, we hypothesized that EMT may be important in this disease. Using immunohistochemistry in a well-characterized set of adenocarcinoma tissues, we showed down-regulation of epithelial markers (E-cadherin and cytokeratin 18) and up-regulation of mesenchymal markers (vimentin and alpha-smooth muscle actin) with concomitant transforming growth factor-beta1 (TGF-beta1) expression at the invasive margin compared with the central tumor. A panel of esophageal cell lines was examined for the ability of TGF-beta1 to induce EMT in vitro. TE7 cells were selected as a model because TGF-beta1 (0-5 ng/mL) treatment induced morphologic and molecular expression changes suggestive of EMT. In TE7 cells, these TGF-beta1-induced changes were reversed by 100 ng/mL of bone morphogenetic protein 7 (BMP7), another member of the TGF-beta1 superfamily. EMT was mediated via canonical TGF-beta1 signaling with concomitant up-regulation of SMAD-interacting protein 1. Alterations in functional variables (aggregation, wounding, motility, and invasion) following TGF-beta1 treatment were consistent with a more invasive phenotype. These functional changes were reversed by BMP7 and SMAD4 RNA interference in vitro. These data suggest that TGF-beta1-mediated EMT may be relevant in esophageal carcinogenesis.
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PMID:In vivo and in vitro evidence for transforming growth factor-beta1-mediated epithelial to mesenchymal transition in esophageal adenocarcinoma. 1701 15

The molecular genetic profiles that characterize pancreatic ductal neoplasia have taken shape recently with the help of immunohistochemistry and the establishment of the nomenclature describing pancreatic ductal tumorigenesis. K-ras mutations frequently occur early, changes in the expression and genetic integrity of the p16 gene appear in intermediate lesions, and the inactivation of the p53, DPC4, and BRCA2 genes occur late in the neoplastic progression. Tumor-suppressor genes inactivated in pancreatic cancer such as ALK5, TGFBR2, MKK4, and STK11/LKB1 have been identified, although their roles in tumor progression are not yet well defined. Additional discoveries in this tumor system may be on the horizon, will further refine the molecular genetic profiles for the disease, and should suggest some clinical uses for this fund of knowledge.
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PMID:Molecular genetics of ductal pancreatic neoplasia. 1703 Nov 13


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