UMLS:C0684249 - FACTA Search

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Query: UMLS:C0684249 (lung carcinoma)
23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Differential expression of nuclear factors binding specifically to AP-1, AP-2, AP-3, and NF-I/CTF enhancer elements was found in the various cell types of human lung carcinoma cells. Adenocarcinoma and squamous carcinoma cells seemed to express higher levels of these factors than large-cell carcinoma and small-cell carcinoma cells. Among small-cell carcinoma cells, variant small-cell carcinoma cells which presumably are closer than classical small-cell carcinoma cells to non-small-cell carcinoma cells in terms of differentiation characteristics also expressed higher levels of these factors. Furthermore, nuclear extracts from the various cell types of carcinoma cells were found to produce different patterns of electrophoretic mobility shift even with the same enhancer element, suggesting the presence of multiple species of specific enhancer-binding activities in these cells. Thus, these enhancer elements may be used as probes for cell-type specificity in the study of differentiation of lung carcinomas.
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PMID:Expression of enhancer binding factors associated with various cell types of lung cancer. 195 10

Activation of protein kinase C- (PKC) and Fos/Jun-dependent signal transduction pathways are thought to be major effects of oncogene action in different tumor systems including human non-small-cell lung carcinoma (NSCLC). We have previously shown that the phorbol ester analogue phorbol-myristate-acetate (PMA), which is a potent activator of PKC, can induce squamous-type cellular differentiation and the expression of proteinases, such as plasminogen activators and pro-cathepsin L, in several NSCLC cell lines. To investigate the PMA-dependent effect on proteinase secretion in more detail, we have now analysed the role of a downstream transmitter of PKC activity in this process, namely Fos, which is part of the AP-1 transcription factor in the nucleus. We transfected a cell line derived from an undifferentiated squamous-cell lung carcinoma with different chimeric fos-estrogen receptor constructs (fos-ER) which makes selective activation of this transcription factor possible. The resulting clones were treated either with PMA as activator of PKC, or with diethylstilbestrol (DES), an estrogen analogue binding to and thereby activating preformed Fos-ER molecules. We show that cells treated with either substance undergo similar phenotypic changes (change from cuboidal to spindle-cell type) and decrease their doubling rates and cloning efficiencies. This is paralleled by the induction of several proteinase genes such as t-PA, urokinase, and pro-cathepsins B and L. Contrary to activated PKC, Fos in this system seems to be unable to initiate terminal squamous-cell differentiation, as assessed by the production of cornified envelopes. It is, however, efficient in the stimulation of neutral or lysosomal proteinase secretion as determined by Western-blot analysis and zymography. This Fos-ER expressing system thus seems to be a valuable tool in the molecular dissection of pathways that lead to the activation and secretion of proteinases in NSCLC cells.
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PMID:Control of proteinase expression by phorbol-ester- and Fos-dependent pathways in human non-small-cell lung-cancer cells. 913 54

Human neuroblastoma SH-SY5Y and small-cell lung carcinoma U1690 cells of neuroendocrine origin were exposed to morphine for 1 h, 3 h or 5 days. These treatments did not alter activities of AP-1, NF-kappa B and YY1 transcription factors in SH-SY5Y cells or NF-kappa B and YY1 in U1690 cells. Five-day morphine treatment, however, caused a twofold increase in the activity of a sequence-non-specific, spermidine-activated DNA-binding factor in U1690 cells. The morphine effect was prevented by the antagonist naloxone. The DNA-binding factor bound preferentially to double-stranded DNA ends. This fact and data on subunit composition, molecular masses of subunits, and supershift/inhibition by specific antibodies in a band shift assay, show the spermidine-activated factor to be identical with the Ku protein, the DNA-binding subunit of DNA-dependent protein kinase. The effect observed may be one of the mechanisms through which opioids influence gene regulation.
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PMID:Long-term morphine treatment increases Ku protein DNA end-binding activity. 924

The protein kinase C (PKC) family, which functions through serine/threonine kinase activity, is involved in signal transduction pathways necessary for cell proliferation and differentiation. Its critical role in processes relevant to neoplastic transformation and tumor invasion renders PKC a potentially suitable target for anticancer therapy. To explore whether antisense blocking of PKCalpha would inhibit the neoplastic properties in tumor cells, human lung carcinoma LTEPa-2 cells were transfected with a recombinant plasmid, pXJ41-CKPalpha, with PKCalpha cDNA inserted in the antisense orientation. In LT.AS4 cell clones stably expressing antisense PKCalpha mRNA, the amounts of PKCalpha protein and total PKC activity were decreased when compared to control cells. The expression of antisense PKCalpha markedly inhibited the cell proliferation rate, colony forming efficiency in soft agar, and tumorigenecity in nude mice. Furthermore, the mRNA levels of oncogenes (Ha-ras, c-jun, and c-fos) were seen to decrease to varying degrees. Reduced DNA binding activity of transcription factor AP-1 was also observed using gel shift analysis, suggesting that one major molecular mechanism by which PKCalpha can exert its effects on cell growth and transformation is through regulation of AP-1 transcription factor activity. Taken together, these data provide evidence for the ability of antisense PKCalpha expression to reverse the transformed phenotype of human lung carcinoma cells and support the development of PKCalpha inhibitors for the clinical treatment of cancers.
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PMID:Antisense inhibition of protein kinase Calpha reverses the transformed phenotype in human lung carcinoma cells. 1038 39

Transcriptional activation of human manganese superoxide dismutase (MnSOD) mRNA induced by a phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), was examined to identify the responsive transcriptional regulator. The effect of various deletions and mutations within the 5'-flanking region of the human MnSOD gene promoter was evaluated using the luciferase reporter system in A549 human lung carcinoma cells. Deletion of a region between -1292 and -1202 nucleotides upstream of the transcription start site abolished TPA-responsive induction, whereas deletion of the putative binding sequence for NF-kappaB or AP-1 did not. The region between -1292 and -1202 contains a cAMP-responsive element-like sequence, TGACGTCT, which we identified as the manganese superoxide dismutase TPA-responsive element, MSTRE. Site-specific mutation of the MSTRE abolished the TPA-responsive induction, validating the critical role of this sequence. We detected specific MSTRE activity from nuclear extracts and demonstrated by antibody supershift assay that this activity is closely related to CREB-1/ATF-1. TPA treatment rapidly induced phosphorylation of the CREB-1/ATF-1-like factor via the protein kinase C pathway. These results led us to conclude that the human MnSOD gene having the promoter construct used in this study is induced by TPA via activation of a CREB-1/ATF-1-like factor and not via either NF-kappaB or AP-1. In addition, we found that this induction was blocked by inhibitors of flavoproteins and NADPH oxidases, indicating involvement of enhanced generation of superoxide radical anion as an upstream signal.
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PMID:Transcriptional activation of the human manganese superoxide dismutase gene mediated by tetradecanoylphorbol acetate. 1060 19

Oncogenic (activated) Ras is a signal transducer that activates multiple effector-mediated signaling pathways leading to altered cell morphology, growth and differentiation, and neoplastic transformation. Activating mutations of Ras family genes have been detected in many types of human cancers, including lung cancer. However, the signaling mechanisms by which oncogenic Ras controls cancer cell growth is poorly characterized. This study evaluates the role of two specific signaling pathways, the c-Jun NH2-terminal kinase (JNK) pathway, and the extracellular signal-regulated kinase (ERK) pathway, in oncogenic Ras-induced morphological transformation of NCI-H82 human small cell lung cancer cells. In the NCI-H82 cell line, oncogenic Ras causes a marked and sustained activation of JNK but only has a modest effect on activation of the ERK pathway. The persistent JNK activation is associated with Ras-induced changes in cell morphology and enhanced transforming activity. Furthermore, JNK activation correlates with the induction of c-Jun expression, c-Jun phosphorylation on serines 63 and 73, and increased AP-1 activity. Deregulation of the JNK pathway using a dominant-negative mutant of JNK1, JNK1(APF), completely reverses the oncogenic Ras-induced transformed phenotype, including morphological reversion and inhibition of anchorage-independent growth and low-serum growth. Moreover, expression of JNK1(APF) leads to a decrease in c-Jun/AP-1 activity. In contrast, inhibition of ERK activation via a pharmacological approach using a mitogen-activated protein kinase/ERK kinase-specific inhibitor 2-(2'-amino-3'-methoxyphenyl)-oxanaphthalen-4-one is unable to reverse the Ras-induced transformed morphology and c-Jun/AP-1 induction. These results demonstrate that the JNK/c-Jun/AP-1 pathway plays an essential role in mediating oncogenic Ras function in lung carcinoma cells.
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PMID:A dominant role for the c-Jun NH2-terminal kinase in oncogenic ras-induced morphologic transformation of human lung carcinoma cells. 1066 94

Lung cancer is a leading cause of cancer-related death in the United States. For this reason we chose to study the specific cellular effects that one chemotherapeutic agent, paclitaxel, has on lung carcinoma. In addition to its known mechanism of action, which is to stabilize microtubules, paclitaxel has been shown to have other interesting and relevant cellular effects. In this report, we demonstrate that a subset of human lung carcinoma cell lines respond to paclitaxel treatment with an up to a fivefold increase in the production of interleukin-8 (IL-8). We demonstrate that this increased production is specific to IL-8 but not to other chemokines, and is both dose- and time-dependent. Increased IL-8 mRNA is seen as early as 45 min with a peak at 4 h after paclitaxel treatment. This increase in mRNA is due to transcriptional activation because actinomycin D treatment blocked the increase. Paclitaxel also activates the mitogen-activated protein kinase family member, JNK1, in dose-dependent fashion. IL-8 enhancement is completely abolished with the use of an inhibitor of NF-kappaB, the super-repressor IkappaB. Similar results were obtained upon the inhibition of AP-1 activation with the MEK1/2 inhibitor, U0126. By gaining a better understanding of the differences in cellular response to paclitaxel chemotherapy, these findings might lead to either improved patient selection or to the development of adjuvant therapy targeted at specific-cell signaling proteins.
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PMID:Paclitaxel up-regulates interleukin-8 synthesis in human lung carcinoma through an NF-kappaB- and AP-1-dependent mechanism. 1082 17

In unstimulated cells, transcription factor NF-kappaB is retained in the cytoplasm by interaction with the inhibitory protein, IkappaBalpha. Appropriate cellular stimuli inactivate IkappaBalpha by phosphorylation, ubiquination, and proteolytic degradation, which allows NF-kappaB to translocate to the nucleus and modulate gene expression. 4-Hydroxy-2-nonenal (HNE), a major lipid peroxidation product, inhibits activation of NF-kappaB in the human colorectal carcinoma cell line (RKO) and human lung carcinoma cell line (H1299). Pretreatment of cells with HNE dose-dependently suppresses tetradecanoylphorbol acetate (TPA)/ionomycin (IM)-induced NF-kappaB DNA binding activity and transactivation of luciferase-based reporter constructs. HNE pretreatment has no affect on TPA/IM-induced AP-1 DNA binding activity. HNE inhibits TPA/IM-induced degradation of IkappaBalpha in both H1299 and Jurkat T cells. The accumulation of IkappaBalpha parallels the inhibition of its phosphorylation. At doses that inhibit IkappaBalpha degradation, HNE inhibits IkappaB kinase (IKK) activity by direct reaction with IKK. Covalent adducts of HNE to IKK are detected on Western blots using antibodies against IKK or HNE-protein conjugates. Addition of dithiothreitol prevents HNE modification of IKK. Thus, HNE is an endogenous inhibitor of NF-kappaB activation that acts by preventing IKK activation and subsequent IkappaBalpha degradation.
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PMID:IkappaB kinase, a molecular target for inhibition by 4-hydroxy-2-nonenal. 1135 92

Cellular response to oxidative stress is a complex process that is often connected to cell cycle regulation. The present study examines the effect of H(2)O(2) on cell cycle regulation and involvement of reactive oxygen species (ROS) in these H(2)O(2)-induced responses in a p53-deficient human lung carcinoma cell line, H1299. Treatment of the cells with H(2)O(2) caused a G2/M phase arrest. Among the redox-sensitive transcription factors, NF-kappaB and AP-1, we found that only AP-1 was activated by 200 microM H(2)O(2) in human lung cells. Furthermore, electrophoretic mobility shift assays revealed that H(2)O(2) enhanced the DNA binding of AP-1 to a putative AP-1 binding element (TGAGGAA) in the p21(WAF1/CIP1) promoter region (between -2203 and -2197 nucleotides upstream of the transcription initiation site). An increase in c-Jun phosphorylation by ERK was also found to accompany the increased AP-1 activity as detected by Western blot. PD98059, a specific inhibitor of MEK, diminished H(2)O(2)-induced phosphorylation of c-Jun and DNA binding activity of AP-1, decreased expression of p21(WAF1/CIP1), and released the cells from G2/M arrest. Taken together, these results revealed a novel AP-1 binding site in the promoter region of p21(WAF1/CIP1) and a possible cell cycle regulation mechanism mediated by activation of a redox-dependent ERK signaling pathway.
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PMID:H(2)O(2)-induced AP-1 activation and its effect on p21(WAF1/CIP1)-mediated G2/M arrest in a p53-deficient human lung cancer cell. 1205 10

The interaction of activated Ras with Raf initiates signaling cascades that contribute to a significant percentage of human tumors, suggesting that agents that specifically disrupt this interaction might have desirable chemotherapeutic properties. We used a subtractive forward two-hybrid approach to identify small molecule compounds that block the interaction of Ras with Raf. These compounds (MCP1 and its derivatives, 53 and 110) reduced serum-induced transcriptional activation of serum response element as well as Ras-induced transcription by way of the AP-1 site. They also inhibited Ras-induced Raf-1 activation in human embryonic kidney 293 cells, Raf-1 and mitogen-activated protein kinase kinase 1 activities in HT1080 fibrosarcoma cells, and epidermal growth factor-induced Raf-1 activation in A549 lung carcinoma cells. The MCP compounds caused reversion of ras-transformed phenotypes including morphology, in vitro invasiveness, and anchorage-independent growth of HT1080 cells. Decreased level of matrix metalloproteinases was also observed. Further characterization showed that MCP compounds restore actin stress fibers and cause flat reversion in NIH 3T3 cells transformed with H-Ras (V12) but not in NIH 3T3 cells transformed with constitutively active Raf-1 (RafDeltaN). Finally, we show that MCP compounds inhibit anchorage-independent growth of A549 and PANC-1 cells harboring K-ras mutation. Furthermore, MCP110 caused G(1) enrichment of A549 cells with the decrease of cyclin D level. These results highlight potent and specific effects of MCP compounds on cancer cells with intrinsic Ras activation.
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PMID:Inhibitors of Ras/Raf-1 interaction identified by two-hybrid screening revert Ras-dependent transformation phenotypes in human cancer cells. 1239 Dec 90

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