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)

The process of tumor cell invasion of the basement membrane is proposed to consist of three steps: attachment, local proteolysis and migration. 12-(S)-HETE, a 12-lipoxygenase metabolite of arachidonic acid, upregulates surface expression of integrin cytoadhesins and an autocrine motility factor receptor, suggesting that this metabolite may play an important regulatory function in tumor cell invasion. In the present study, we determined whether 12-(S)-HETE affects surface expression and/or release of cathepsin B, a cysteine protease that has been implicated in focal degradation of basement membrane. Secretion and distribution of cathepsin B was evaluated in two model systems for various stages of neoplastic progression: (i) murine B16 melanoma lines of low (B16-F1) and high (B16a) lung colonization potential, and (ii) immortalized and ras-transfected MCF-10 human breast epithelial cells that differ in their invasive capacities in vitro. In the B16a cells, 12-(S)-HETE induced release of native and latent cathepsin B activity and concomitantly reduced cell-associated cathepsin B immunoreactivity. In contrast, 12-(S)-HETE did not induce the release of cathepsin B from B16-F1 cells, suggesting that there may be an enhanced response to 12-(S)-HETE in more malignant cells. This was confirmed in the MCF-10 system, in which 12-(S)-HETE was able to induce the release of cathepsin B from the ras-transfected cells, but not from the immortal cells. A simultaneous reduction in staining for cathepsin B was observed in the ras-transfected cells, but not in their immortal counterparts. The release of cathepsin B may be mediated by PKC as pretreatment of B16a cells with the selective PKC inhibitor calphostin C, but not with the PKA inhibitor H8, prevented the stimulated release of cathepsin B. In B16a cells, the release of cathepsin B was accompanied by a translocation toward the cell periphery of vesicles staining for cathepsin B, resulting in focal areas of accumulation of cathepsin B. After 12-(S)-HETE stimulation of the ras-transfected MCF-10 cells, cathepsin B was distributed homogeneously on the apical surface. Thus, 12-(S)-HETE can upregulate the surface expression on tumor cells of proteins able to mediate each of the three steps of tumor cell invasion: adhesion, degradation, and migration.
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PMID:A lipoxygenase metabolite, 12-(S)-HETE, stimulates protein kinase C-mediated release of cathepsin B from malignant cells. 752 40

Phorbol ester tumor promoter treatment produced a biphasic effect on the binding of polyclonal whole-serum natural antibody (NAb) by L5178Y-F9 murine lymphoma cells. In vitro tumor growth in 100 ng/ml 12-O-tetradecanoylphorbol-13-acetate (TPA) produced a rapid decrease followed by a reversible and unstable increase in NAb binding detected at 4 degrees C. The latter was associated with a functional decrease in NAb binding at 37 degrees C and increases in the tumorigenic and metastatic potentials in vivo. Colchicine, cytochalasin B and sodium azide inhibited the NAb binding of TPA-treated cells, while only colchicine reduced the binding of controls, suggesting the dependence of the TPA-induced increase in NAb binding on microfilament organization and active energy production. The non-tumor-promoting, non-PKC-activating TPA analogue 4-O-Me-TPA failed to alter NAb binding, arguing against nonspecific effects of TPA. The non-tumor-promoting, PKC-activating diacylglycerol, OAG, reproduced the initial decrease in NAb binding but was unable to mimic the subsequent TPA-induced increase. The PKC inhibitor H-7, but not HA1004, could block the TPA-induced increase in NAb binding. Together the data argue that PKC activation is required for both TPA-induced changes in NAb binding but that it is not sufficient to generate the energy- and microfilament-system-dependent, unstable high-NAb-binding phenotype associated with increased tumor progression.
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PMID:Phorbol ester tumor promoter regulation of natural antitumor antibody binding depends on protein kinase C and an intact microfilament system. 789 3

Recent study has demonstrated the development of pregnancy-dependent mammary tumors (PDMTs) in GR/A mice during pregnancy and their regression by apoptotic cell death after parturition. In the present study, we examined the molecular machinery of PDMTs before and after parturition and in progression. The death associated-cell surface molecule Fas was expressed only when apoptosis occurred, and no expression could be determined after progression. Interestingly, death suppressor Bcl-2 showed down-regulation when apoptosis occurred, and intense expression after progression. Examination of the possible involvement of PKC isozymes showed that only PKC-epsilon showed drastic changes in expression: expression was not detected in normal mammary gland cells and PDMTs, but was instead seen only when PDMTs progressed to malignant tumors. On the basis of these results, we suggest that PDMT-regression is due to Fas-mediated apoptosis, and that lack of Fas, persistent expression of Bcl-2, and new expression of PKC-epsilon are essential events for tumor progression.
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PMID:Progression of PDMT is accompanied by lack of Fas and intense expression of Bcl-2 and PKC-epsilon. 916 71

Tea polyphenols are known to inhibit a wide variety of enzymatic activities associated with cell proliferation and tumor progression. The molecular mechanisms of antiproliferation are remained to be elucidated. In this study, we investigated the effects of the major tea polyphenol (-)-epigallocatechin gallate (EGCG) on the proliferation of human epidermoid carcinoma cell line, A431. Using a [3H]thymidine incorporation assay, EGCG could significantly inhibit the DNA synthesis of A431 cells. In vitro assay, EGCG strongly inhibited the protein tyrosine kinase (PTK) activities of EGF-R, PDGF-R, and FGF-R, and exhibited an IC50 value of 0.5-1 microgram/ml. But EGCG scarcely inhibited the protein kinase activities of pp60v-src, PKC, and PKA (IC50 > 10 micrograms/ml). In an in vivo assay, EGCG could reduce the autophosphorylation level of EGF-R by EGF. Phosphoamino acid analysis of the EGF-R revealed that EGCG inhibited the EGF-stimulated increase in phosphotyrosine level in A431 cells. In addition, we showed that EGCG blocked EGF binding to its receptor. The results of further studies suggested that the inhibition of proliferation and suppression of the EGF signaling by EGCG might mainly mediate dose-dependent blocking of ligand binding to its receptor, and subsequently through inhibition of EGF-R kinase activity.
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PMID:Suppression of extracellular signals and cell proliferation through EGF receptor binding by (-)-epigallocatechin gallate in human A431 epidermoid carcinoma cells. 932 39

Protein kinase C (PKC) is thought to play a role in tumor progression and drug resistance of colon carcinomas. Specifically, the PKC alpha isoform has been implicated in drug resistance and responsiveness of colon carcinoma cells to growth factors. Therefore, in this study we determined the effect of downregulating PKC alpha expression by transfecting human colon carcinoma cells with an antisense PKC alpha expression vector and then determined the sensitivity of these cells to the anticancer drugs mitomycin C (MMC), 5-fluorouracil (5-FU) and vincristine (Vin). Transiently transfecting the human colon carcinoma cell lines Moser, SW480 and HT29 with antisense PKC alpha expression vector (but not antisense PKC beta expression vector) consistently increased the sensitivity of these cells to MMC, 5-FU and VIN by several-fold. Sensitivity to these drugs was then further determined in the Moser colon carcinoma cell line stably transfected with antisense PKC alpha expression vector. This stably transfected cell line, which expressed a high level of antisense PKC alpha RNA with a concurrent reduction of PKC alpha protein expression, was found to exhibit an increased sensitivity to these anticancer drugs. Thus, strategies designed to downregulate PKC alpha expression may have potential in improving the responses of colon carcinoma cells to cytotoxic drugs.
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PMID:Modulation of chemosensitivity in human colon carcinoma cells by downregulating protein kinase C alpha expression. 941 6

The HMGI(Y) family of "high mobility group" nonhistone proteins are architectural transcription factors whose overexpression is highly correlated with both cancerous transformation and increased malignancy and metastatic potential of tumors in vivo. Here we report on the types of posttranslational modifications found in vivo on the HMG-I and HMG-Y proteins isolated from two human breast epithelial cell lines, MCF-7 and MCF-7/PKC-alpha, that represent different stages of neoplastic progression. The MCF-7 cell line exhibits many characteristics of normal breast epithelial cells and does not form tumors when injected into nude mice, whereas the MCF-7/PKC-alpha cell line, a derivative of MCF-7 that expresses a transgene coding for the enzyme protein kinase C-alpha (PKC-alpha), is both malignant and highly metastatic. Using MALDI mass spectrometry, we show that the HMG-Y protein is more highly modified than the HMG-I protein in both the MCF-7 and the MCF-7/PKC-alpha cells. Significantly, the HMG-Y protein isolated from the highly metastatic MCF-7/PKC-alpha cells possesses a unique constellation of phosphorylations, methylations, and acetylations not found on the HMG-I protein isolated from either the MCF-7 or MCF-7/PKC-alpha cells. We further demonstrate that some of the same amino acid residues phosphorylated on recombinant HMGI(Y) proteins by purified PKC in vitro are also phosphorylated on the HMG-I(Y) proteins isolated from MCF-7/PKC-alpha cells, suggesting that PKC phosphorylates these proteins in vivo. Quantitative substrate binding analyses indicate that the biochemical modifications present on the HMG-I and HMG-Y proteins differentially influence the ability of these proteins to interact with both A.T-rich DNA substrates and nucleosome core particles in vitro, suggesting a similar modulation of such binding affinities in vivo. To our knowledge, this is the first demonstration of differences in the types of in vivo biochemical modifications found on the HMG-I and HMG-Y proteins in cells and also the first experimental evidence suggesting a possible linkage between such posttranslational modifications and the neoplastic potential of cells.
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PMID:Differential in vivo modifications of the HMGI(Y) nonhistone chromatin proteins modulate nucleosome and DNA interactions. 1088 43

Deregulation of several signaling pathways have been found to be critical for the development of different types of tumors, both in transgenic and spontaneous models. The role of proteases and adhesion molecules during the early stages of tumor progression induced by oncogenes in epithelial and mesenchymal tumors has remained relatively unexplored. This review summarizes recent work showing that different but overlapping signaling effector modules (PKC, v-Ras-RalA-PLD1 or v-Src-RalA-PLD1) induce changes in the production of proteases (uPA and MMPs) and adhesion molecules (fibronectin, CD44, beta 1-integrin) in normal epithelial or mesenchymal cell lines, associated with tumor development in vivo. Overexpression of PKC gamma in normal mammary epithelial cells or of v-Src and v-Ras in NIH3T3 fibroblasts induced in all cases overproduction of uPA and MMPs and a tumorigenic phenotype. Proteases production and tumorigenicity in transformed NIH3T3 cells were dependent on the GTPase RalA. In contrast to the common outcome in protease production by the different tumor promoting stimuli, fibronectin production was high in PKC-overexpressing mammary epithelial cells and it was organized into a rich fibrillar matrix, while oncogene transformed fibroblasts displayed reduced fibronectin production and a total loss of FN fibrillogenesis, an effect also dependent on RalA. These results show that protease overexpression is a common denominator in the acquisition of a malignant phenotype both in mesenchymal and epithelial cells. In contrast there is a dramatic difference in the expression and function of adhesion molecules like fibronectin between these two cell types, suggesting different regulatory roles for this glycoprotein during tumor progression, in cells of different tissular origin.
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PMID:[Signaling pathways regulating the expression of proteases during tumor progression]. 1118 28

Tumour progression to the metastatic phenotype is mainly dependent on tumour cell invasiveness. Cell migration is a crucial step in this process. Here we investigate the effect of hepatocyte growth factor (HGF) on the induction of in vitro invasiveness of poorly aggressive Caco-2 colonic cancer epithelial cells. Invasion assays through a Matrigel barrier were performed. Proteases were assessed by zymography, reverse transcription-polymerase chain reaction and immunoblotting. Caco-2 cells were found to express HGF receptor but not HGF and to secrete several proteases, namely matrix metalloproteinase-1 (MMP-1), MMP-2, possibly MMP-9 and urokinase plasminogen activator (uPA). Exogenous HGF promoted invasiveness of Caco-2 cells through an artificial basement membrane matrix and enhanced their production of proteases. In addition, analyses of media at the end of invasion assays indicated that anti-HGF antibody inhibited protease production in parallel with cell invasion. The involvement of proteases in the HGF-induced invasion process was further investigated using either a synthetic general MMP inhibitor or neutralizing antibodies against MMPs or uPA. All components significantly inhibited HGF-promoted cell invasion. Moreover, specific inhibitors of PKCalpha/beta1 and PI3 kinase also decreased both HGF-promoted cell invasion and protease expression in invasion assay media. Thus, our findings provide evidence that the process of HGF-activated invasiveness of Caco-2 cells involves PI3 kinase and PKC and results from close association of two events, stimulation of cell motile activity and concomitant overproduction of proteases, which permits cell migration through a degraded extracellular matrix.
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PMID:Hepatocyte growth factor induces colonic cancer cell invasiveness via enhanced motility and protease overproduction. Evidence for PI3 kinase and PKC involvement. 1140 46

Megakaryocytic genes such as alphaIIbbeta3 can be expressed by malignant cells as part of the disturbances in their gene regulation. However, the function of the gene product greatly depends on the interaction of the ectopic protein with the new environment. The outside-in signaling of the ectopically expressed alphaIIbbeta3 integrin was studied in B16a murine melanoma cells using a monoclonal antibody, specifically directed to the activated conformation of alphaIIbbeta3, PAC-1 and the physiological ligand, fibrinogen. Ligation of alphaIIbbeta3 induced down-regulation of FAK but serine phosphorylation of three protein bands, 20/21, 85 and 140 kDa within 1-15 min. Flow cytometry indicated that the ligation of the receptor in B16a cells induces approximately 50% increase in phosphoserine positive cells within 5-15 min. 12-lipoxygenase is placed downstream in the signaling pathway, since ligation of alphaIIbbeta3 induces 12-HETE production within 5 min and pretreatment of tumor cells with select lipoxygenase inhibitior, Baicalein, prevents the increase in serine phosphorylation. Confocal microscopy of adherent tumor cells demonstrated rearrangement of actin filaments upon alphaIIbbeta3 ligation paralleled by downregulation of p125FAK and phoshotyrosine+ adhesion plaques and translocation of PKCalpha to stress fibers and cortical actin. PKC appears to be the major effector serine kinase of the alphaIIbbeta3-coupled signaling pathway, since pretreatment of tumor cells with a select PKC inhibitor, Calphostin C, prevents the ligation-induced serine phosphorylation. Previous studies have indicated a role for the 12-lipoxygenase-PKC signaling pathway in platelet aggregation as well as tumor invasion, therefore the involvement of this cascade in the signaling of the ectopic alphaIIbbeta3 integrin may partially explain its role in tumor progression.
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PMID:Ectopic alphaIIbbeta3 integrin signaling involves 12-lipoxygenase- and PKC-mediated serine phosphorylation events in melanoma cells. 1143 81

Selenium is a very effective cancer-preventive agent, suppressing tumor promotion and early stages of tumor progression. However, the mechanisms by which selenium exerts these cancer-preventive actions are not known. Protein kinase C (PKC) is a receptor for certain tumor promoters and also plays a crucial role in events related to tumor progression. Therefore, it is not only a potential target for the cancer-preventive activity of selenium, but also it has the structural basis for interaction with selenium. Redox-active selenocompounds can inactivate PKC, particularly the Ca(2+)-dependent isozymes, by reacting with the critical cysteine-rich regions present within the catalytic domain while, in some cases, also reacting with the cysteine residues present within the zinc-fingers of the regulatory domain. The selenoprotein thioredoxin reductase (TR), acting through thioredoxin, reverses the inactivation of PKC induced by selenometabolites. Furthermore, TR, through a direct interaction involving its selenosulfur center with the zinc-thiolates of PKC, can reverse the redox modification of this kinase induced by selenometabolites. Thus the selenometabolite-induced toxicity is reversed by a selenoprotein, and therefore an interrelationship exists between these two mechanisms of selenium actions. Moreover, this also explains how a resistance to selenium develops in advanced tumor cells probably due to an overexpression of functional TR. Selenium-induced inactivation of PKC may, at least in part, be responsible for the selenium-induced inhibition of tumor promotion, cell growth, invasion, and metastasis, as well as for the induction of apoptosis.
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PMID:Protein kinase C as a molecular target for cancer prevention by selenocompounds. 1179 24


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