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

The aim of this study was to analyze the expression and clinical role of DJ-1, a negative regulator of PTEN (phosphatase and tensin homolog deleted on chromosome 10), in ovarian carcinoma, and investigate the putative association between DJ-1 levels and expression of its transcriptional regulators specificity protein 1 (Sp1) and specificity protein 3 (Sp3). Effusions (n = 72) and solid tumors (n = 57, 42 primary and 15 metastases) were analyzed for DJ-1 messenger RNA (mRNA) expression using reverse transcriptase-polymerase chain reaction. Most specimens (48 effusions, 50 solid tumors) were additionally analyzed for Sp1 and Sp3 mRNA expression. PTEN protein expression was analyzed in 201 effusions and 92 solid tumors using immunohistochemistry. DJ-1 mRNA was expressed in more than 80% of specimens, with no preferential anatomical site. DJ-1 expression was positively associated with Sp1 expression in effusions (P = .03) and with Sp1 (P = .02) and Sp3 (P = .002) expression in solid tumors. In effusions, DJ-1 expression was higher in postchemotherapy compared with prechemotherapy specimens (P = .012). Higher DJ-1 levels (P = .027) and more advanced FIGO stage (IV versus III; P = .003) correlated with shorter progression-free survival in univariate analysis for patients with postchemotherapy effusions. PTEN expression was low in effusions and solid tumors (23% and 13%, respectively), and its expression showed no association with DJ-1 levels or survival. Our data show that DJ-1 is frequently expressed in advanced-stage ovarian carcinoma at all anatomical sites and is coexpressed with its transcriptional regulators Sp1 and Sp3. In contrast, PTEN expression is infrequent in this disease. These findings may provide one of the molecular mechanisms that mediate cancer cell survival and aggressiveness in this tumor.
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PMID:Expression and clinical role of DJ-1, a negative regulator of PTEN, in ovarian carcinoma. 1794 81

Malignant melanoma originates in melanocytes, the pigment-producing cells of the skin and eye, and is one of the most deadly human cancers with no effective cure for metastatic disease. Like many other cancers, melanoma has both environmental and genetic components. For more than 20 years, the melanoma genome has been subject to extensive scrutiny, which has led to the identification of several genes that contribute to melanoma genesis and progression. Three molecular pathways have been found to be nearly invariably dysregulated in melanocytic tumors, including the RAS-RAF-MEK-ERK pathway (through mutation of BRAF, NRAS or KIT), the p16 INK4A-CDK4-RB pathway (through mutation of INK4A or CDK4) and the ARF-p53 pathway (through mutation of ARF or TP53). Less frequently targeted pathways include the PI3K-AKT pathway (through mutation of NRAS, PTEN or PIK3CA) and the canonical Wnt signaling pathway (through mutation of CTNNB1 or APC). Beyond the specific and well-characterized genetic events leading to activation of proto-oncogenes or inactivation of tumor suppressor genes in these pathways, systematic high-resolution genomic analysis of melanoma specimens has revealed recurrent DNA copy number aberrations as well as perturbations of DNA methylation patterns. Melanoma provides one of the best examples of how genomic analysis can lead to a better understanding of tumor biology. We review current knowledge of the genes involved in the development of melanoma and the molecular pathways in which these genes operate.
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PMID:The genome and epigenome of malignant melanoma. 1804 49

Prostate cancer is a heterogeneous neoplasm both with regard to its development, molecular abnormalities and clinical course. For example, in the United States, 1 in 6 men is diagnosed with prostate cancer whilst only 1 in 34 dies of metastatic disease [A. Jemal, R. Siegel, E. Ward, T. Murray, J. Xu, M.J. Thun, Cancer Statistics, 2007, CA Cancer J. Clin. 57 (2007) 43-66]. In this review, we summarise novel understandings of the early molecular events in prostatic carcinogenesis that may underlie both the molecular and clinical heterogeneity. Issues covered include those related to stem cells and embryonic signalling, oncogene/tumor suppressor abnormalities, androgen signalling, apoptosis and the nature of tumor-stromal interactions. Emphasis is placed on signalling pathway abnormalities, their causation, consequences and interactions. For example, genomic abnormalities involving the TMPRSS2-ETS and PTEN loci and the resulting signalling effects suggest the importance of genomic instability as a crucial factor in the emergence of this neoplasm. Together with new insights into signalling pathways consequent to abnormalities such as these, a greater understanding of the pathophysiology involved in prostatic carcinogenesis will lead to targeted approaches for both therapy and chemoprevention in the future.
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PMID:Prostatic preneoplasia and beyond. 1816 63

Transforming growth factor-beta (TGF-beta) suppresses growth via the TGF-beta-SMAD pathway but promotes growth in cancer cells with disrupted SMAD signaling and corresponds to an invasive phenotype. TGF-beta also downregulates the tumor suppressor PTEN that is rarely mutated in sporadic pancreatic cancer; this downregulation may mediate cell proliferation and invasiveness, but the mechanism is unknown. Here, we examined whether TGF-beta modulation of PTEN was mediated by protein kinase C (PKC). We have previously demonstrated that SMAD4-null BxPc-3 pancreatic cancer cells treated with TGF-beta1 (10 ng/ml) suppressed PTEN expression and increased cell proliferation. TGF-beta-treated cells were examined for PKC activation and its coupling to PTEN expression, utilizing pharmacological and knockdown methods. Calcium mobilization and cell migration were also examined. In BxPc-3 cells, only two PKC isoforms were activated by TGF-beta, and PTEN downregulation by TGF-beta was specifically mediated by PKC-alpha. In parallel, TGF-beta rapidly induced an increase in cytoplasmic free calcium from intracellular stores, consistent with subsequent PKC-alpha activation. The TGF-beta-induced increase in cell migration was blocked by knockdown of PKC-alpha. Thus calcium-dependent PKC-alpha mediates TGF-beta-induced transcriptional downregulation of PTEN, and this pathway promotes cell migration in a SMAD4-null environment. The TGF-beta-PKC-alpha-PTEN cascade may be a key pathway for pancreatic cancer cells to proliferate and metastasize.
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PMID:TGF-beta mediates PTEN suppression and cell motility through calcium-dependent PKC-alpha activation in pancreatic cancer cells. 1823 55

Studies of prostate cancer pathogenesis and development of new therapies have been hampered by a lack of appropriate mouse models. We have generated PSA-Cre-ER(T2) mice that express the tamoxifen-dependent Cre-ER(T2) recombinase selectively in prostatic epithelium, thus allowing us to target floxed genes selectively in epithelial cells of fully differentiated prostate of adult mice and to modulate the number of genetically altered cells. Our present mouse model, in which prostate carcinogenesis is initiated through Cre-ER(T2)-mediated somatic biallelic ablation of the tumor suppressor gene PTEN after puberty, closely mimics the course of human cancer formation. Indeed, mutant mice developed prostate epithelium hyperplasia within 4 weeks after PTEN ablation and prostatic intraepithelial neoplasia (PIN) in all lobes within 2-3 months, with the highest incidence in the dorsolateral lobe, which is considered to be the most similar to the peripheral zone of the human prostate, in which adenocarcinoma is preferentially localized. Eight to 10 months after PTEN ablation some PINs of the dorsolateral lobe had progressed to adenocarcinoma, but no distant metastases were found up to 20 months after PTEN ablation, indicating that progression to metastasis requires an additional mutation or mutations. Interestingly, monoallelic Cre-ER(T2)-mediated PTEN ablation in epithelial cells of adult prostate also generated focal hyperplasia and PINs, but exclusively in the dorsolateral lobe, and in much lower number and after a longer latency. However, no progression to adenocarcinoma was observed. Because PTEN expression was undetectable in epithelial cells from these PINs, loss of PTEN function appears to act as a permissive event for uncontrolled cell proliferation.
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PMID:Temporally controlled ablation of PTEN in adult mouse prostate epithelium generates a model of invasive prostatic adenocarcinoma. 1826 30

Advances in science and technology have allowed us to manipulate the mouse genome and analyse the effect of specific genetic alterations on the development of prostate cancer in vivo. We can now analyse the molecular basis of initiation, invasion and progression to metastatic disease. The current mouse models utilise knockout, knock-in or conditional regulation of expression using Cre-loxP technology. Genes that have been targeted include homeobox genes, tumour suppressors and oncogenes, growth factors (and their receptors), steroid hormones and cell-cycle regulators, as well as pro- and anti-apoptotic proteins. Bigenic models indicate that that two 'hits' are required for progression from intra-epithelial neoplasia (PIN) to invasion carcinoma, and two to five hits are needed for metastasis. Here, we discuss the numerous models that mimic various aspects of the disease process, such as PIN, locally invasive adenocarcinoma and metastatic disease. Currently the PB-Cre4 x PTEN(loxP/loxP) mouse is the only model that spans the entire continuum from initiation to local invasion and metastasis. Such mouse models increase our understanding of the disease process and provide targets for novel therapeutic approaches. Hopefully, the transgenic models will become inducible and ultimately allow both temporal and spatial gene inactivation. Compound mutational models will also develop further, with double and triple knock-in or knockout systems adding to our knowledge of the interaction between different signalling cascades.
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PMID:Advances in mouse models of prostate cancer. 1853 39

The mechanisms of granulosa cell tumor (GCT) development may involve the dysregulation of signaling pathways downstream of follicle-stimulating hormone, including the phosphoinosite-3 kinase (PI3K)/AKT pathway. To test this hypothesis, a genetically engineered mouse model was created to derepress the PI3K/AKT pathway in granulosa cells by conditional targeting of the PI3K antagonist gene Pten (Pten(flox/flox);Amhr2(cre/+)). The majority of Pten(flox/flox);Amhr2(cre/+) mice featured no ovarian anomalies, but occasionally ( approximately 7%) developed aggressive, anaplastic GCT with pulmonary metastases. The expression of the PI3K/AKT downstream effector FOXO1 was abrogated in Pten(flox/flox);Amhr2(cre/+) GCT, indicating a mechanism by which GCT cells may increase proliferation and evade apoptosis. To relate these findings to spontaneously occurring GCT, analyses of PTEN and phospho-AKT expression were performed on human and equine tumors. Although PTEN loss was not detected, many GCT (2/5 human, 7/17 equine) featured abnormal nuclear or perinuclear localization of phospho-AKT, suggestive of altered PI3K/AKT activity. As inappropriate activation of WNT/CTNNB1 signaling causes late-onset GCT development and cross talk between the PI3K/AKT and WNT/CTNNB1 pathways has been reported, we tested whether these pathways could synergize in GCT. Activation of both the PI3K/AKT and WNT/CTNNB1 pathways in the granulosa cells of a mouse model (Pten(flox/flox);Ctnnb1(flox(ex3)/+);Amhr2(cre/+)) resulted in the development of GCT similar to those observed in Pten(flox/flox);Amhr2(cre/+) mice, but with 100% penetrance, perinatal onset, extremely rapid growth and the ability to spread by seeding into the abdominal cavity. These data indicate a synergistic effect of dysregulated PI3K/AKT and WNT/CTNNB1 signaling in the development and progression of GCT and provide the first animal models for metastatic GCT.
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PMID:Synergistic effects of Pten loss and WNT/CTNNB1 signaling pathway activation in ovarian granulosa cell tumor development and progression. 1868 66

Uveal melanoma is the most common primary intraocular malignancy in adults. Overall mortality rate remains high because of the frequent development of metastatic disease, especially hepatic metastasis. While traditional systemic chemotherapies provide only marginal benefit to patients, local treatments for hepatic metastases, such as immunoembolization, have improved patient prognoses. Progress has also been made in identifying potential targets in the pathways involved in apoptosis, proliferation, invasion, metastasis, and angiogenesis of uveal melanoma. Among these pathways, the c-Kit, c-Met, and IGF-1R signal pathways and the PTEN-related PI3K-Akt pathway are the most important targets. Clinical trials using blockades of these pathways in conjunction with strategies to facilitate apoptosis is a direction for future clinical trials. Application of these approaches in the adjuvant setting after primary therapy for high-risk uveal melanoma patients is also a future consideration to improve the clinical outcome of this disease.
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PMID:The biology and management of uveal melanoma. 1870 73

Metastasis is responsible for 90% of cancer patient deaths. More information is needed about the molecular basis for its potential detection and treatment. The activated AKT kinase is necessary for many events of the metastatic pathway including escape of cells from the tumor's environment, into and then out of the circulation, activation of proliferation, blockage of apoptosis, and activation of angiogenesis. A series of steps leading to metastatic properties can be initiated upon activation of AKT by phosphorylation on Ser-473. These findings lead to the question of how this activation is connected to metastasis. Activated AKT phosphorylates GSK-3beta causing its proteolytic removal. This increases stability of the negative transcription factor SNAIL, thereby decreasing transcription of the transmembrane protein E-cadherin that forms adhesions between adjacent cells, thereby permitting their detachment. How is AKT hyperactivated in metastatic cells? Increased PI3K or TORC2 kinase activity- or decreased PHLPP phosphatase could be responsible. Furthermore, a positive feedback mechanism is that the decrease of E-cadherin lowers PTEN and thereby increases PIP3, further activating AKT and metastasis.
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PMID:Metastasis and AKT activation. 1881 26

Anaplastic thyroid cancer (ATC) is a rare malignancy. While external beam radiation therapy has improved locoregional control, the median survival of approximately 4 months has not changed in more than half a century due to uncontrolled systemic metastases. The objective of this study was to review the literature in order to identify potential new strategies for treating this highly lethal cancer. PubMed searches were the principal source of articles reviewed. The molecular pathogenesis of ATC includes mutations in BRAF, RAS, catenin (cadherin-associated protein), beta 1, PIK3CA, TP53, AXIN1, PTEN, and APC genes, and chromosomal abnormalities are common. Several microarray studies have identified genes and pathways preferentially affected, and dysregulated microRNA profiles differ from differentiated thyroid cancers. Numerous proteins involving transcription factors, signaling pathways, mitosis, proliferation, cell cycle, apoptosis, adhesion, migration, epigenetics, and protein degradation are affected. A variety of agents have been successful in controlling ATC cell growth both in vitro and in nude mice xenografts. While many of these new compounds are in cancer clinical trials, there are few studies being conducted in ATC. With the recent increased knowledge of the many critical genes and proteins affected in ATC, and the extensive array of targeted therapies being developed for cancer patients, there are new opportunities to design clinical trials based upon tumor molecular profiling and preclinical studies of potentially synergistic combinatorial novel therapies.
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PMID:Anaplastic thyroid cancer: molecular pathogenesis and emerging therapies. 1898 68


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