UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissue microarray technology facilitates rapid assessment of expression of molecular markers by enabling the simultaneous analysis of hundreds of tissue specimens. We have applied this technology to establish a microarray composed of cell pellets derived from 40 human lymphoma/leukemia-derived cell lines harboring a variety of molecular abnormalities. The application of cell line microarrays to the assessment of biologic marker evaluation was validated by studying the immunohistochemical expression of PTEN and phosphorylated AKT, two mediators of the phosphatidylinositol (PI)-3-kinase pathway. In addition to the high throughout analysis of protein expression in lymphoma/leukemia cells, this methodology also enables the evaluation of subcellular localization of protein expression. Cytoplasmic PTEN expression was observed in the majority of cell lines (87%), whereas a minor subset demonstrated nuclear expression. Phosphorylated AKT was also expressed predominantly within the cytoplasm in 65% of cell lines, whereas nuclear expression was seen in a minority. An inverse relationship between PTEN and phosphorylated AKT was observed in 63% of cell lines. No cell lines showed absence of PTEN expression, whereas 50% of cell lines showed low PTEN expression. Our data support the integrity of the PI-3-kinase-PTEN-AKT pathway in a majority of cell lines derived from hematologic malignancies and clearly demonstrates the utility of microarray technology in the in situ assessment of expression of molecular markers in tumor-derived cell lines.
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PMID:Analysis of the PI-3-Kinase-PTEN-AKT pathway in human lymphoma and leukemia using a cell line microarray. 1280 67

The serine/threonine kinase AKT, also known as PKB or RAC-PK, is a key molecule for protecting cells from undergoing apoptosis. Several studies have suggested that the AKT-mediated survival-signaling pathway is an attractive target for cancer chemotherapy: (1) the AKT pathway is relatively inactive in resting cells; (2) amplification of the AKT gene occurs in some tumors; (3) loss of the tumor suppressor gene PTEN (phosphatase and tensin homolog deleted on chromosome 10) is common in tumors and its loss constitutively activates AKT; (4) AKT is activated at the cancer invasion front. To clarify which drugs exhibit their cytotoxicity by inhibiting the AKT pathway, we screened anticancer drugs that could downregulate phospho-AKT levels and AKT kinase activity. We found that UCN-01 (7-hydroxystaurosporine), heat-shock protein 90 (HSP90) inhibitors, and topotecan (10-hydroxy-9-dimethylaminomethyl-(S)-camptothecin) possessed the ability to interfere with the AKT pathway. UCN-01 directly suppressed upstream AKT kinase 3-phosphoinositide-dependent protein kinase-1 (PDK1) (IC(50) <33 nM) both in vitro and in tumor xenografts. HSP90 inhibitors and topotecan suppressed AKT activity via indirectly downregulating PDK1 and phosphatidylinositide-3-OH kinase activities. Transfection of the constitutively active AKT complementary DNA into cells attenuated the cytotoxic effects of the drugs, indicating that inhibition of the AKT pathway plays an important role in exerting their cytotoxic effects. These results strongly suggest that the AKT-mediated survival-signaling pathway is a promising and attractive target for cancer chemotherapy.
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PMID:Survival-signaling pathway as a promising target for cancer chemotherapy. 1281 31

The Hepatitis B Virus X (HBx) protein of hepatitis B virus plays a major role in hepatocellular carcinoma. It has been reported that the mutation and disruption of PTEN, a known tumor suppressor and a negative regulator of phosphatidylinositol 3'-kinase/AKT might be involved in tumor progression. However, the relationship between HBx and PTEN expression in hepatocellular carcinoma (HCC) development is not fully understood. This study reports on an investigation of whether PTEN expression in HBx-transfected cells is modulated by HBx or not. HBx decreased the expression of PTEN in HBx-transfected cells, as evidenced by Western as well as Northern blot analysis. In addition, AKT was found to be activated by HBx, as evidenced by not only the phosphorylation of AKT at serine 473 but by the phosphorylation of the exogenous substrate histone H2B as well, and these were specifically blocked by the presence of wortmannin. Moreover, The growth rate of HBx-transfected liver cells was higher than that of Chang and Chang-pEGFP cells. HBx had no effect on the expression of p53, a known transcriptional activator of PTEN. However, we confirmed that the binding of the p53 protein to p53 binding site-oligo of PTEN promoter is decreased in HBx-transfected liver cells by electrophoretic mobility shift analysis and, in addition, that HBx disrupts p53-mediated PTEN transcription, as evidenced by a PTEN promoter assay. Therefore, we conclude that HBx in liver cells down-regulates the expression of PTEN and activates AKT. This constitutes the first report to demonstrate that HBx has an effect on the p53-mediated transcription of PTEN, which, in turn, is associated with tumor suppression.
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PMID:Hepatitis B Virus X protein modulates the expression of PTEN by inhibiting the function of p53, a transcriptional activator in liver cells. 1283 24

Previous work from our laboratory demonstrated that PTEN regulates tumor-induced angiogenesis and thrombospondin 1 expression in malignant glioma. Herein, we demonstrated the first evidence that the systemic administration of a phosphatidylinositol 3'-kinase (PI3K) inhibitor (LY294002) has antitumor and antiangiogenic activity in vivo. We show that PTEN reconstitution diminished phosphorylation of AKT, induced the transactivation of p53 (7.5-fold induction) and increased the expression of p53 target genes, p21(waf-1) and insulin-like growth factor binding protein 3 in glioma cells. PTEN and LY294002 induced p53 activity in human brain endothelial cells, suggesting that PTEN and PI3K pathways can suppress the progression of cancer through direct actions on tumor and endothelial cells. The capacity of PTEN and LY294002 to inhibit U87MG or U373MG glioma growth was tested in an ectopic skin and orthotopic brain tumor model. LY294002 inhibited glioma tumor growth in vivo, induced tumor regression, decreased the incidence of brain tumors, and blocked the tumor-induced angiogenic response of U87MG cells in vivo. These data provide evidence that both PTEN and PI3K inhibitors regulate p53 function and display in vivo antiangiogenic and antitumor activity. These results provide evidence that the two tumor suppressor genes, PTEN and p53, act together to block tumor progression in vivo. Our data provide the first preclinical evidence for the in vivo efficacy for LY294002 in the treatment of malignant gliomas.
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PMID:PTEN and phosphatidylinositol 3'-kinase inhibitors up-regulate p53 and block tumor-induced angiogenesis: evidence for an effect on the tumor and endothelial compartment. 1283 45

Stromelysin-3 (ST3) has the characteristic structure of matrix metalloproteinases (MMP), but its substrate specificity and pattern of expression differ markedly from that of other MMP family members. ST3 was originally isolated on the basis of its expression in primary breast cancers and has been shown to be overexpressed in virtually all primary carcinomas, suggesting that ST3 participates in the initial development of epithelial malignancies. Recent data using murine models reported that ST3 expression was able to increase tumor take by suppressing cell apoptosis. Our present goal was to set up an in vitro model in which we could study this new function. For this purpose, we analyzed survival of MCF-7 transfectants expressing either wild-type or catalytically inactive ST3 (ST3wt or ST3cat-) in three-dimensional (3-D) culture conditions by inclusion in Matrigel. In such conditions, that mimic the in vivo microenvironment, we found a marked decrease in the percentage of cell death when active ST3 was expressed (ST3wt transfectants vs. ST3cat- or vector only transfectants) as assessed by FACS and TUNEL analysis. The addition of batimastat, a broad spectrum MMP inhibitor, reversed the increased cell survival in ST3wt transfectants, confirming that ST3 enzymatic activity was required for this effect. Finally, we analyzed the expression of anti- and pro-apoptotic proteins as well as activation of cell survival pathways and we found that ST3-mediated cell survival was accompanied by activation of both p42/p44 MAPK and AKT. Our data confirm and extend the anti-apoptotic function of ST3 and provide a useful model to dissect this new role and identify new physiological substrates.
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PMID:Active stromelysin-3 (MMP-11) increases MCF-7 survival in three-dimensional Matrigel culture via activation of p42/p44 MAP-kinase. 1284 73

AKT, a downstream mediator of phosphatidylinositol 3'-kinase, is activated in non-small cell lung cancer (NSCLC), but we have not yet defined the stage of malignant transformation at which AKT is activated in the bronchial epithelium. We performed immunohistochemical analysis of activated AKT [phosphorylated (p)-AKT Ser(473)] in tissue specimens of normal bronchial epithelium, bronchial hyperplasia and squamous metaplasia ("reactive" epithelium), bronchial dysplasia, and NSCLC. Among NSCLC specimens, immunohistochemical findings were correlated with patient demographics, tumor stage, histology, and survival. We observed p-AKT expression in 12 of 44 (27.3%) normal bronchial biopsy specimens, 4 of 9 (44.4%) reactive epithelium specimens, 22 of 25 (88%) dysplastic specimens, and 25 of 76 (33%) NSCLC specimens. Among patients with resected early-stage or locally advanced NSCLC, p-AKT expression had no effect on tumor stage, histology, or survival. Of the histological groups examined, bronchial dysplasia specimens expressed p-AKT most frequently, supporting AKT activation as an early event in lung cancer progression. Given its role as a mediator of malignant transformation, p-AKT should be investigated as a potential target in future lung cancer prevention studies.
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PMID:Increased phospho-AKT (Ser(473)) expression in bronchial dysplasia: implications for lung cancer prevention studies. 1286 8

Src family protein-tyrosine kinases, which play an important role in signal integration, have been implicated in tumorigenesis in multiple lineages, including breast cancer. We demonstrate, herein, that Src kinases regulate the phosphatidylinositol 3-kinase (PI3K) signaling cascade via altering the function of the PTEN tumor suppressor. Overexpression of activated Src protein-tyrosine kinases in PTEN-deficient breast cancer cells does not alter AKT phosphorylation, an indicator of signal transduction through the PI3K pathway. However, in the presence of functional PTEN, Src reverses the activity of PTEN, resulting in an increase in AKT phosphorylation. Activated Src reduces the ability of PTEN to dephosphorylate phosphatidylinositols in micelles and promotes AKT translocation to cellular plasma membranes but does not alter PTEN activity toward water-soluble phosphatidylinositols. Thus, Src may alter the capacity of the PTEN C2 domain to bind cellular membranes rather than directly interfering with PTEN enzymatic activity. Tyrosine phosphorylation of PTEN is increased in breast cancer cells treated with pervanadate, suggesting that PTEN contains sites for tyrosine phosphorylation. Src kinase inhibitors markedly decreased pervanadate-mediated tyrosine phosphorylation of PTEN. Further, expression of activated Src results in marked tyrosine phosphorylation of PTEN. SHP-1, a SH2 domain-containing protein-tyrosine phosphatase, selectively binds and dephosphorylates PTEN in Src transfected cells. Both Src inhibitors and SHP-1 overexpression reverse Src-induced loss of PTEN function. Coexpression of PTEN with activated Src reduces the stability of PTEN. Taken together, the data indicate that activated Src inhibits PTEN function leading to alterations in signaling through the PI3K/AKT pathway.
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PMID:Src family protein-tyrosine kinases alter the function of PTEN to regulate phosphatidylinositol 3-kinase/AKT cascades. 1286 65

TEL is a frequent target of chromosomal translocations in human cancer and an alleged tumor suppressor gene. TEL encodes two isoforms: a major TEL-M1 isoform as well as TEL-M43, which lacks the first 42 amino acid residues of TEL-M1. Both isoforms are potent transcriptional repressors that can inhibit RAS-induced transformation. Here we show that the v-SRC protein-tyrosine kinase relieves the repressive activity of TEL-M1, an activity that is associated with the v-SRC-induced delocalization of TEL-M1 from the nucleus to the cytoplasm. TEL-M1 delocalization requires the kinase activity of v-SRC and is not induced by oncogenic RAS or AKT. Cytoplasmic delocalization of TEL-M1 in response to v-SRC critically depends upon its unique amino-terminal domain (SRCD domain) because (i). v-SRC did not inhibit the repressive properties of TEL-M43, nor affected TEL-M43 nuclear localization; (ii). fusion of the first 52 amino acid residues of TEL-M1 to FLI-1, an ETS protein insensitive to v-SRC-induced delocalization, is sufficient to confer v-SRC-induced delocalization to this TEL/FLI-1 chimeric protein. The v-SRC-induced nucleo-cytoplasmic delocalization of TEL-M1 does not involve phosphorylation of the SRCD and does not require TEL self-association and repressive domains. Finally, enforced expression of the v-SRC-insensitive TEL-M43, but not of TEL-M1, inhibits v-SRC-induced transformation of NIH3T3 fibroblasts. These results identify a regulatory domain in TEL that specifically impinges on the subcellular localization of its major TEL-M1 isoform. They, furthermore, indicate that inhibition of TEL-M1 nuclear function is required for v-SRC to induce cellular transformation.
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PMID:v-SRC specifically regulates the nucleo-cytoplasmic delocalization of the major isoform of TEL (ETV6). 1289 22

PTEN tumor suppressor serves as a major negative regulator of survival signaling mediated by PI3 kinase/AKT/protein kinase B pathway, and is inactivated in various human tumors. Elucidation of mechanisms responsible for PTEN expression is important for providing insight into strategies to control the loss of PTEN expression in human cancers. Although recent studies suggested that p53 and Egr-1 can modulate induced PTEN expression, the mechanism responsible for ubiquitous constitutive expression of PTEN remains elusive. PTEN mRNA contains a highly conserved and GC-rich 5'-untranslated region (5'-UTR). Recently, it has been shown that the long 5'-UTR sequences of several growth-regulated mRNAs contain promoters that can generate mRNAs with shorter 5'-UTRs. In this paper, we tested whether the 5'-UTR sequence of mouse PTEN contains a promoter that is responsible for constitutive expression of PTEN. We found that the long 5'-UTR sequence of mouse PTEN severely inhibits translation of PTEN and a heterologous gene firefly luciferase. Deletion of the most 5'-UTR sequence would enhance translation efficiency 100-fold. We also showed that the 5'-UTR sequence of mouse PTEN does not have an internal ribosome entry site (IRES) that can mediate cap-independent initiation of translation. Instead, we found that the 5'-UTR sequence of mouse PTEN contains a strong promoter that drives the production of a transcript with shorter 5'-UTRs, which can be translated with higher efficiency. This promoter was mapped to the region between -551 and -220 bases upstream of the translation start codon. Cotransfection analysis using Drosophila SL2 cells showed that Sp1 is one of the major transcription factors that can constitutively activate this promoter. Two endogenous PTEN transcripts with 5'-UTRs of 193 and 109 bases were found in DU145 and H226 cell lines. Based on these observations, we conclude that the PTEN expression may be regulated at both transcriptional and translational levels, and that the 5'-UTR sequence of PTEN contains a promoter that is responsible for constitutive PTEN expression.
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PMID:Regulation of constitutive expression of mouse PTEN by the 5'-untranslated region. 1291 34

The constitutively active, truncated epidermal growth factor receptor EGFRvIII lacks the ability of EGF binding due to a deletion of the NH(2)-terminal domain. EGFRvIII confers increased tumorigenicity, is coexpressed with EGFR wild type (wt) in human carcinoma and malignant glioma cells when grown as xenografts, but is not expressed in vitro. The effects of EGFRvIII expression on cellular radiation responses were studied in Chinese hamster ovary (CHO) cells transfected with plasmids expressing EGFRvIII (CHO.EGFRvIII) or EGFRwt (CHO.EGFRwt). CHO cells expressing similar levels of either receptor were employed to define their roles in response to EGF and ionizing radiation. EGF activated EGFRwt with no effect on EGFRvIII. In contrast, a single radiation exposure of 2 Gy resulted in a 2.8- and 4.3-fold increase in Tyr phosphorylation of EGFRwt and EGFRvIII, respectively. Downstream consequences of this radiation-induced activation were examined by inhibiting EGFRwt and EGFRvIII with AG1478 (kinase inhibitor). The radiation-induced 8.5-fold activation of the pro-proliferative mitogen-activated protein kinase and the 3.2-fold stimulation of the antiapoptotic AKT/phosphatidylinositol-3-kinase pathways by EGFRvIII far exceeded that in CHO.EGFR wt cells. Thus, based on colony formation and apoptosis assays, EGFRvIII expression conferred a stronger cytoprotective response to radiation than EGFRwt, resulting in relative radioresistance. Therefore, disabling EGFRvIII in addition to EGFRwt needs to be considered in any therapeutic approach aimed at targeting EGFR for tumor cell radiosensitization.
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PMID:EGFRvIII-mediated radioresistance through a strong cytoprotective response. 1294 1

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