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)

Cytosol and nuclei of Lewis lung carcinoma (LLC) cells contain high affinity binding sites specific for the arachidonic acid metabolite 12(S)-hydroxy-5,8,10,14-eicosatetraenoic acid (12(S)-HETE). In this report we present evidence that the cytosolic 12(S)-HETE binding complex also occurs in human erythroleukemia (HEL) and promonocytic leukemia (U937) cells as well as in murine 3T3-L1 preadipocytes but not in intestinal epithelial cells (Int407). The cytosolic 650 kDa 12(S)-HETE-binding complex was found to consist of subunits; raising the ATP concentration in cytosol led to conversion of the 650 kDa complex to a 50 kDa binding component, presumably the actual 12(S)-HETE binding polypeptide. Lowering of the cytosolic concentration of ATP had the opposite effect, i.e., the amount of the 650 kDa complex increased. Another subunit of the 650 kDa complex was identified as heat shock protein 70 (hsp70) by Western blot analyses and coimmunoprecipitation. Hsp70 was present in substoichiometric amounts, in an approximate 1:6 ratio. The multimeric nature of the binding complex and the identification of hsp70 as a subunit suggest that there are similarities between the 12(S)-HETE binding protein and receptors of the steroid/thyroid hormone superfamily.
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PMID:Identification of subunits of the 650 kDa 12(S)-HETE binding complex in carcinoma cells. 950 84

The implantation of the Lewis lung carcinoma (a fast-growing mouse tumour that induces cachexia) to both wild-type and transgenic mice for the soluble TNF receptor type I protein (sTNF-R1) resulted in a considerable loss of carcass weight in both groups. However, while in the wild-type mice there was a loss of both fat and muscle, in the transgenic mice muscle waste was not affected to the same extent as in the wild-type group. Muscle waste in wild-type mice was accompanied by an increase in the fractional rate of protein degradation, while no changes were observed in protein synthesis. The result was a decreased rate of protein accumulation which accounted for the muscle weight loss observed as a result of the tumour burden. In contrast, transgenic mice did not have such low rates of protein accumulation after tumour implantation. The increase in protein degradation in the tumour-bearing transgenic mice was accompanied by a similar increase in protein synthesis which compensated for the loss of muscle protein by degradation. Both tumour-bearing groups showed an enhanced expression of ubiquitin and proteasome C8 subunit genes, all of them related to the activation of the ATP-dependent proteolytic system in skeletal muscle. It is suggested that TNF may, in part, be responsible for the loss of protein in skeletal muscle of tumour-bearing mice.
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PMID:Protein turnover in skeletal muscle of tumour-bearing transgenic mice overexpressing the soluble TNF receptor-1. 975 Dec 52

The implantation of the Lewis lung carcinoma (a fast-growing mouse tumour that induces cachexia) to both wild-type and gene-deficient mice for the TNF-alpha receptor type I protein (Tnfr1 degree/Tnfr1 degree), resulted in a considerable loss of carcass weight in both groups. However, while in the wild-type mice there was a loss of both fat and muscle, in the gene-knockout mice muscle wastage was not affected to the same extent. In both groups, tumour burden resulted in significant increases in circulating TNF-alpha, a cytokine which, as we have previously demonstrated, can induce protein breakdown in skeletal muscle. Muscle wastage in wild-type mice was accompanied by an increase in the fractional rate of protein degradation, while no changes were observed in protein synthesis. The result is a decreased rate of protein accumulation that accounts for the muscle weight loss observed as a result of tumour burden. In contrast, gene knockout mice did not have significantly lower rates of protein accumulation as a result of tumour implantation. The increase in protein degradation in the tumour-bearing wild mice was accompanied by an enhanced expression of both ubiquitin and proteasome subunit genes, all of them related to the activation of the ATP-dependent proteolytic system in skeletal muscle. Tumour-bearing gene-deficient mice did not show any increase in gene expression. It is concluded that TNF-alpha (alone or in combination with other cytokines) is responsible for the activation of protein breakdown in skeletal muscle of tumour-bearing mice.
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PMID:Role of TNF receptor 1 in protein turnover during cancer cachexia using gene knockout mice. 978 14

A cytosolic 650-kDa complex which binds 12(S)-hydroxy-5,8,10, 14-eicosatetraenoic acid (12(S)-HETE) with high affinity and specificity has been found in various cell lines but not until now in platelet cytosol. After incubation of human platelets with 12(S)-[3H]HETE, a labeled cytosolic 650-kDa complex was isolated. As previously shown for the binding complex in Lewis lung carcinoma (LLC) cells, ATP treatment transformed the platelet complex into a 50-kDa ligand-binding subunit. These results are of interest for two reasons: (a) 12(S)-HETE is a major arachidonic acid metabolite in platelets, and (b) platelets contain large amounts of the cell adhesion molecule GpIIb/IIIa, the activation of which is regulated by 12(S)-HETE. Hsp90 was found to be a component of the 12(S)-HETE binding complex in Lewis lung carcinoma cells, and the 50-kDa ligand-binding subunit itself bound 12(S)-HETE with high affinity. Competition experiments showed that 12(R)-HETE, 15-deoxy-Delta12, 14-prostaglandin J2, and 5(S)-HETE had lower affinity for the 50-kDa subunit than 12(S)-HETE. The 12(S)-HETE binding protein appears to be distinct from known members of the steroid hormone receptor superfamily of nuclear receptors.
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PMID:The 650-kDa 12(S)-hydroxyeicosatetraenoic acid binding complex: occurrence in human platelets, identification of hsp90 as a constituent, and binding properties of its 50-kDa subunit. 1037 96

The synthetic flavone flavopiridol can be cytostatic or cytotoxic to mammalian cells, depending on the concentration of the drug and the duration of exposure. It has been shown to inhibit the cyclin-dependent kinase (CDK) family of cell cycle regulatory enzymes. However, the existence of additional potential targets for drug action remains a matter of interest to define. To identify cellular targets, flavopiridol was immobilized. CDKs, particularly CDK 4, bound weakly to immobilized flavopiridol when ATP was absent but not in its presence. Two proteins with molecular weights of 40 kDa and 120 kDa had high affinities to the immobilized flavopiridol independent of the presence of ATP. They were present in all cell lines analyzed: cervical (HeLa), prostate and non-small cell lung carcinoma (NSCLC) cell lines. A 60-kDa protein, which was present only in NSCLC cells and bound similarly well to immobilized flavopiridol, was identified as cytosolic aldehyde dehydrogenase class 1 (ALDH-1). The level of this protein correlated with the resistance of NSCLC cell lines to cytotoxicity caused by 500 nM flavopiridol but not higher flavopiridol concentrations. Despite binding to ALDH-1, there was no inhibition of dehydrogenase activity by flavopiridol concentrations as high as 20 microM and flavopiridol was not metabolized by ALDH-1. The results suggest that high cellular levels of ALDH-1 may reduce cytotoxicity of flavopiridol and contribute to relative resistance to the drug. This is the first report that flavopiridol binds to proteins other than CDKs.
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PMID:Identification of cytosolic aldehyde dehydrogenase 1 from non-small cell lung carcinomas as a flavopiridol-binding protein. 1041 4

mRNA differential display was applied to three small cell lung carcinoma (SCLC) cell lines, six non-small cell lung carcinoma (NSCLC) cell lines, and three normal lung tissues to identify genes differentially expressed between lung carcinoma cells and normal lung tissues and between SCLC cells and NSCLC cells. We isolated five differentially expressed genes, two that were novel and three that were already known. DIL-1 (differentially expressed in cancerous and noncancerous lung cells; HGMW-approved symbol SPON2) and pulmonary surfactant apoprotein A were expressed in normal lung tissues but not in lung carcinoma cell lines, whereas DIL-2 (HGMW-approved symbol C20orf2) and nm23-H1 were expressed in lung carcinoma cell lines but not in normal lung tissues. The remaining gene, Annexin II, was expressed at a lower level in SCLC than in NSCLC and normal lung tissues. These genes were also differentially expressed in primary lung cancers. One of the two novel genes, DIL-1, encodes a secreted protein homologous to the Mindin/F-spondin family. The other, DIL-2, encodes a protein with a putative ATP/GTP binding site motif. These data provide basic information necessary to understand the differences in gene expression profiles between lung carcinoma and normal lung and between SCLC and NSCLC. Further characterization of these genes will help to clarify the molecular mechanisms of human lung carcinogenesis.
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PMID:Identification of genes (SPON2 and C20orf2) differentially expressed between cancerous and noncancerous lung cells by mRNA differential display. 1051 75

A pilot study on squamous cell lung carcinoma (LC) chemosensitivity in adenosine triphosphate cell viability chemosensitivity assay (ATP-CVA) was performed. Besides the histological investigation, a modified ATP-CVA was used for the analysis of cancer cell chemosensitivity to four drug regimens, including topotecan, a promising agent for non-small-cell lung cancer (NSCLC) chemotherapy. Results of in vitro chemosensitivity testing showed chemoresistance or only weak response in the predominant amount of tumors.
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PMID:Lack of squamous cell lung carcinoma in vitro chemosensitivity to various drug regimens in the adenosine triphosphate cell viability chemosensitivity assay. 1054 31

CC3 is a metastasis suppressor that inhibits metastasis of the variant small cell lung carcinoma (v-SCLC) by predisposing cells to apoptosis. The same protein was also reported as a cellular cofactor, TIP30, which stimulates HIV-1 Tat-activated transcription by interacting with both Tat and RNA polymerase II. We report here that TIP30/CC3 is a novel serine/threonine kinase. It phosphorylates the heptapeptide repeats of the C-terminal domain (CTD) of the largest RNA polymerase II subunit in a Tat-dependent manner. Amino acid substitutions in the putative ATP binding motif that abolish the TIP30 kinase activity also inhibit the ability of TIP30 to enhance Tat-activated transcription or to sensitize NIH 3T3 and v-SCLC cells to apoptosis. Furthermore, ectopic expression of TIP30/CC3 in v-SCLC cells induces expression of a number of genes that include the apoptosis-related genes Bad and Siva, as well as metastasis suppressor NM23-H2. These data demonstrate a molecular mechanism for TIP30/CC3 function and suggest a novel pathway for regulating apoptosis.
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PMID:TIP30 has an intrinsic kinase activity required for up-regulation of a subset of apoptotic genes. 1069 37

Genes MAGE, BAGE, GAGE, and LAGE-1/NY-ESO-1 code for antigens that are recognized on melanoma cells by autologous CTLs. Because the pattern of expression of these genes results in the presence of antigens on many tumors of various histological types and not on normal tissues, these antigens qualify for cancer immunotherapy. To identify new genes with tumor-specific expression, we applied a cDNA subtraction approach, ie., representational difference analysis, to a human sarcoma cell line. We obtained two cDNA clones that appeared to be tumor specific. The corresponding genes were named SAGE and HAGE because they have the same pattern of expression as genes of the MAGE family. SAGE encodes a putative protein of 904 amino acids and shows no homology to any recorded gene. Like the MAGE-A genes, it is located in the q28 region of chromosome X. Expression of gene SAGE was observed mainly in bladder carcinoma, lung carcinoma, and head and neck carcinoma but not in normal tissues, with the exception of testis. Gene HAGE, which is located on chromosome 6, encodes a putative protein of 648 amino acids. This protein is a new member of the DEAD-box family of ATP-dependent RNA helicases. Gene HAGE is expressed in many tumors of various histological types at a level that is 100-fold higher than the level observed in normal tissues except testis. Because of this tumor-specific expression, genes SAGE and HAGE ought to encode antigens that could be useful for antitumoral therapeutic vaccination.
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PMID:Identification on a human sarcoma of two new genes with tumor-specific expression. 1091 59

Multidrug resistance (MDR), characterized by a cross-resistance to many natural toxin-related compounds, may be caused either by overexpression of a drug efflux pump such as P-glycoprotein, (P-gP), multidrug resistance proteins MRP1-3, or BCRP/MXR or, in the case of DNA topoisomerase II active drugs, by a decrease in the enzymatic activity of the target molecule termed altered topoisomerase MDR (at-MDR). However, human small cell lung carcinoma (SCLC) cell lines showed a collateral sensitivity to 2',2'-difluorodeoxycytidine (gemcitabine, dFdC) and 1-beta-D-arabinofuranosylcytosine (ara-C). H69/DAU, a daunorubicin (DAU)-resistant variant of H69 with a P-gP overexpression, and NYH/VM, a VM-26 (teniposide)-resistant variant of NYH with an at-MDR, were both 2-fold more sensitive to gemcitabine and 7- and 2-fold more sensitive to ara-C, respectively. MDR variants had a 4.3- and 2.0-fold increased activity of deoxycytidine kinase (dCK), respectively. dCK catalyzes the first rate-limiting activation step of both gemcitabine and ara-C. In addition, deoxycytidine deaminase, responsible for inactivation of dFdC and ara-C, was 9.0-fold lower in H69/DAU cells. The level of thymidine kinase 2, a mitochondrial enzyme that can also phosphorylate deoxycytidine and gemcitabine, was not significantly different between the variants. These differences most likely caused an increased accumulation of the active metabolites (dFdCTP, 2.1- and 1.6-fold in NYH/VM and H69/DAU cells, respectively) and of ara-CTP (1.3-fold in NYH/VM cells). Ara-CTP accumulation was not detectable in either H69 variant. The pools of all ribonucleoside and deoxyribonucleoside triphosphates were at least 3- to 4-fold higher in the NYH variants compared to the H69 variants; for dCTP and dGTP this difference was even larger. The higher ribonucleotide pools might explain the >10-fold higher accumulation of dFdCTP in NYH compared to H69 variants. Since dCTP is low, H69 cells might not need a high ara-CTP accumulation to inhibit DNA polymerase. This might be related to the lack of ara-CTP in H69 variants. In addition, the increased CTP, ATP, and UTP pools in the MDR variants might explain the increased ara-CTP and dFdCTP accumulation. In conclusion, the MDR variants of the human SCLC cell lines were collaterally sensitive due to an increased dCK activity, and consequently an increased ara-CTP and dFdCTP accumulation.
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PMID:Collateral sensitivity to gemcitabine (2',2'-difluorodeoxycytidine) and cytosine arabinoside of daunorubicin- and VM-26-resistant variants of human small cell lung cancer cell lines. 1133 Oct 76

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