Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As part of an inquiry into factors that determine the virulence of fixed rabies virus, mouse neuroblastoma cells were infected in culture with high virulence and low virulence strains of Flury HEP virus. Low virulence virus infection differed from high virulence virus infection in (1) its more rapid production of progeny virus in the early cycles of virus infection as shown by the number of extracellular virus particles and the infectivity of the supernatant fluid; (2) its earlier development of viral antigens on the cell surface; and (3) its earlier and more severe morphologic alteration of the cell surface. Where applicable, the differences were corroborated by scanning and transmission electron microscopy of the infected cells using the critical point drying technique on whole cells. The number of cells susceptible to complement-dependent immunolysis was almost proportional to the number of cells that were surface antigen-positive regardless of the strain of the virus used. Implications of the difference in the kinetics of virus production and of the development of surface antigens between low and high virulence strains are discussed.
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PMID:Rabies virus infection in mouse neuroblastoma cells. 6 72

Published reports indicate that normal rodent cells can grow in medium containing either L-methionine or L-homocysteine, whereas malignant rodent cells have an absolute requirement for L-methionine. Our studies with two normal human cell lines (fetal lung fibroblasts and bladder epithelial cells) exhibit equal growth in media containing either L-methionine or L-homocysteine. The same is true for five malignant human cell lines (carcinoma of the cervix [HeLa], adenocarcinoma of the breast [AlAb], acute lymphoblastic leukemia [MOLT-3], Wilms' tumor [SK-NEP-1], and reticulum cell sarcoma [T-77], whereas four other malignant cell lines (adenocarcinoma of the breast [SK-BR-2-III], the two lymphoblastic leukemias [CCRF-HSB-2 and CCRF-SB], and a neuroblastoma [SK-N-MC]) have absolute requirements for L-methionine. Two malignant cell lines, an adenocarcinoma of the lung (A549) and an adenocarcinoma of the pancreas (Capan-1), showed restricted growth under the experimental conditions used. L-Methionlinase (L-methionine-alpha-deamino-gamma-mercaptomethane-lyase, EC 4.4.1.11) at a concentration of 0.1 unit/ml leads to complete growth inhibition of cell cultures of both the normal human fetal lung fibroblasts (F-136-35-56) and the acute lymphoblastic leukemia (CCRF-HSB-2). L-Homocysteine-thiolactone in medium containing L-methioninase could partly "rescue" the normal but not the malignant cells.
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PMID:Tumor therapy by deprivation of L-methionine: rationale and results. 46 46

Twenty-two children with advanced (Stage III and IV) neuroblastoma have been treated in a nonrandomized fashion, half with a three-drug regimen consisting of vincristine, adriamycin, and cyclophosphamide, and half with this same drug combination plus the nonspecific immunostimulatory agent, MER/BCG. The addition of MER to the three-drug combination appeared to improve the duration of survival in this pilot study. The median duration of response was less than one year in the combination chemotherapy alone arm. The median duration of complete remission in children treated with the addition of MER has yet to be reached at 24 months.
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PMID:Immunochemotherapy in advanced neuroblastoma. 63 92

In papillary thyroid carcinomas, we have identified two tumor-specific rearrangements of the RET proto-oncogene leading to the formation of different transforming fusion products sharing the tyrosine kinase (tk) domain of the proto-oncogene and designated ptc-1 and ptc-2. We have analysed ptc-1 and ptc-2 products by immunoprecipitation with specific anti-RET antibodies followed by immunoblotting with the same reagent or with antibodies specific for phosphotyrosine (P-tyr) residues. The anti-RET antibodies were reactive with 64-kDa (p64ptc-1) and 81-kDa (p81ptc-2) proteins from lysates of ptc-1 and ptc-2 transformed cells, respectively, and identified two proteins of 140 kDa and 160 kDa from extracts of SK-N-SH, a neuroblastoma cell line previously shown to express two differently glycosylated forms of the normal RET product. The anti P-tyr antibodies, while detecting the same p64ptc-1 and p81ptc-2 proteins from ptc-1 and ptc-2 extracts, did not show any specific band in the neuroblastoma lysates. An additional set of experiments led us to conclude that, whereas the normal product of the RET proto-oncogene is a membrane-associated receptor-like molecule not intrinsically phosphorylated on tyrosine, both oncogenic forms of RET, ptc-1 and ptc-2, are constitutively phosphorylated on tyrosine, display an 'in vitro' autophosphorylation activity, are translocated from the membrane to the cytoplasm and are apparently unaffected by protein kinase C modulation.
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PMID:Identification of the product of two oncogenic rearranged forms of the RET proto-oncogene in papillary thyroid carcinomas. 143 45

Diagnosis- and/or prognosis-related alterations of (proto) oncogenes may be detected in neuroblastoma (N-myc), carcinoma of breast and ovary (HER2/neu), NHL (c-myc, bcl-2), CML (c-abl/bcr), and some other neoplasias. A wide variety of methods for the detection of gene alterations can be applied. The methods of detection have to be chosen according to the expected mechanisms of oncogene activation, the availability of adequately prepared tissue, and the technical standard of the laboratory. The sensitivity, specificity, and quantitation of morphological techniques (immunohistochemistry and in situ hybridization) is restricted and their results have to be interpreted most carefully. Whenever possible, at least two different techniques should be used, preferably on two different levels, i.e. RNA/DNA and protein. Furthermore, the combination of morphological and non morphological methods should be aspired.
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PMID:[Oncogenes and oncogene products--possibilities and significance of their detection]. 170 8

A central issue in cancer research is how tumors evolve and acquire a more aggressive phenotype. It is a widely discussed hypothesis that tumor cell populations progress by evolutionary change as a result of the generation of a variant cell through genomic instability followed by selection of particular variant clones having a growth advantage within the particular tissue environment. Genetic instability appears to be characteristic of neoplastic cells, but no consistent increase in instability seems to accompany progression of the malignant phenotype of the tumor. It is reasonable to assume that quantitative or qualitative changes of cellular oncogenes contribute to the emergence of more malignant phenotypes. Although any one of the molecular changes of cellular oncogenes identified over the past years is a good candidate as an element in progression, amplification appears particularly frequently as a correlate to advanced tumor stage. The fact that amplification does not show up in all progressing tumors of a particular type, for instance in only 50% of advanced-stage neuroblastomas, is often construed as speaking against a role in progression. One should be aware, however, that it is the enhanced expression of a gene consequent to amplification and not amplification per se that affects the cellular phenotype. There are alternative molecular pathways by which expression of a particular gene may become deregulated. During the past decade much information has accrued about genetic alterations in tumor cells. The activation of the oncogenic potential of cellular genes can take different routes among which mutational alteration, translocation and amplification predominate. In particular, amplification has found its way to practical use due to its association with more aggressively growing types of human cancer. MYCN amplification in neuroblastoma is a paradigm for the prognostic significance of oncogene alteration, and at the same time has represented the clinical debut of oncogene research. The full significance of oncogene amplification as a predictor for poor prognosis became clear with the more recent identification of amplified ERBB2 in aggressively growing breast cancers. The state of the art is that amplified cellular oncogenes define cancer patients who have a poor prognosis and require a specific therapeutic regimen.
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PMID:Enhanced expression of the cellular oncogene MYCN and progression of human neuroblastoma. 187 94

Neutral endopeptidase-24.11 (EC 3.4.24.11) (NEP) is a transmembrane metallo-endopeptidase that has been shown to be involved in the degradation of several mammalian neuropeptides, including enkephalins. The enzyme has recently been found to be specifically associated with the axonal and synaptic membranes of neurons in the globus pallidus of the pig brain. This result suggests that neurons must possess mechanisms for targeting NEP to particular membrane domains. Study of these mechanisms would greatly benefit from the existence of an established neuron-like cell line capable of expressing and targeting NEP to specific membrane domains. For this reason we have used a retroviral vector containing the cDNA for rabbit kidney NEP to express this enzyme in a mouse neuroblastoma cell line (Neuro2A). Labelling of the cell surface with an antibody coupled to colloidal gold particles and examination of the cells by electron microscopy revealed a non-uniform distribution of NEP at the surface of the cells, the protein being preferentially associated with the membrane of neurites compared with the cell body. This observation suggests that Neuro2A cells possess a mechanism for targeting NEP to specific domains of the plasma membrane. This cell line could thus constitute a good model for studying the mechanisms responsible for targeting this enzyme to specialized regions of the plasma membrane.
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PMID:Recombinant neutral endopeptidase-24.11 expressed in mouse neuroblastoma cells is associated with neurite membranes. 233 3

The ability of normal human fibroblast-derived chromosomes to suppress tumorigenicity in nude mice and in vitro growth properties of various tumor cell lines was examined. Normal human chromosomes tagged with pSV2neo gene by DNA transfection were transferred to the following human tumor cell lines by microcell-fusion: SiHa (uterine cervical carcinoma), A204 (rhabdomyosarcoma), SK-NEP-1 (Wilms' tumor), HHUA (uterine endometrial carcinoma), SK-N-MC (neuroblastoma), YCR (renal cell carcinoma), HT1080 (fibrosarcoma), and CC1 (chorionic carcinoma). The results indicate the presence of a putative tumor-suppressor gene(s) in multiple chromosomes, and suggest that multiple genes may normally be involved in suppressing the transformed phenotypes at different stages in some tumors. Thus, the microcell transfer of chromosomes to specific tumor cell lines is a useful technique to demonstrate the presence of tumor-suppressor genes on individual chromosomes, and may also be useful in cloning of tumor-suppressor genes as well as elucidating their function in cell-growth and differentiation.
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PMID:Multiple chromosomes carrying tumor suppressor activity, via microcell-mediated chromosome transfer, for various tumor cell lines. 248 35

Interferon-gamma-induced tryptophan metabolism of human macrophages was compared to ten human neoplastic cell lines of various tissue origin and to normal dermal human fibroblasts. Tryptophan and metabolites were determined in supernatants of cultures, after incubation for 48 h, by high-performance liquid chromatography with ultraviolet and fluorescence detection. With the exception of two cell lines (Hep G 2, hepatoma and CaCo 2, colon adenocarcinoma) in all of the ten other cells and cell lines tryptophan degradation was induced by interferon-gamma. Five of these ten formed only kynurenine (SK-N-SH, neuroblastoma; T 24, J 82, bladder carcinoma; A 431, epidermoid carcinoma; normal dermal fibroblasts), three formed kynurenine and anthranilic acid (U 138 MG, glioblastoma; SK-HEP-1, hepatoma; A 549, lung carcinoma). Only one line, A 498 (kidney carcinoma) showed the same pattern of metabolites as macrophages (kynurenine, anthranilic acid and 3-hydroxyanthranilic acid). Interferon-gamma regulated only the activity of indoleamine 2,3-dioxygenase. All other enzyme activities detected were independent of interferon-gamma, as shown by the capacity of the cells to metabolize L-kynurenine or N-formyl-L-kynurenine. Increasing the extracellular L-tryptophan concentration resulted in a marked induction of tryptophan degradation by macrophages. Contrarily, a significant decrease of the tryptophan degrading activity was observed when the extracellular L-tryptophan concentration was increased 2-fold with SK-N-SH, T 24 and J 82, 4-fold with A 431 and A 549 and 10-fold with U 138 MG and SK-HEP-1. The activity was unaffected by extracellular L-tryptophan with dermal fibroblasts and A 498. Though interferon-gamma was the most potent inducer of tryptophan metabolism, interferon-alpha and/or -beta showed small but distinct action on some of the cells. In all cells which reacted to interferon-gamma by enhanced expression of class I and/or class II major histocompatibility complex antigens tryptophan degradation was also inducible. These results demonstrate that induction of indoleamine 2,3-dioxygenase is a common feature of interferon-gamma action, that the extent of this induction is influenced by extracellular L-tryptophan concentrations and that indoleamine 2,3-dioxygenase is the only enzyme in the formation of 3-hydroxyanthranilic acid from tryptophan which is regulated by interferon-gamma.
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PMID:Characteristics of interferon induced tryptophan metabolism in human cells in vitro. 250 Sep 76

The presence of neonatal (cord) lymphokine-activated killer (LAK) cell activity toward natural killer cell resistant Raji and Daudi cell lines has recently been reported from our laboratory. We investigated the future therapeutic use of LAK adoptive immunotherapy by examining LAK in vitro cytotoxicity from both neonatal and adult mononuclear cells against solid tumor cell lines of relevance to pediatric oncology: SH-SY5Y (neuroblastoma), SK-NM-C (neuroblastoma-neuroepithelioma), NEP-1 (Wilms' tumor), SK-ES-1 (Ewing's sarcoma), and A-204 (rhabdomyosarcoma). Cord and adult mononuclear cells were activated by recombinant IL-2 (100 mu/ml) for 5-7 days and added in an effector:target ratio of 40:1 to 51Cr-labeled target cells. Specific cell lysis was determined after a 4-h incubation. There was a significantly high level of cord and adult LAK cytotoxicity against Wilms' (76.4 +/- 9.8 versus 77.3 +/- 6.8%) and Ewing's (84.2 +/- 5.5 versus 71.1 +/- 6.5%) cell lines and significant but moderate LAK activity against neuroepithelioma (52.0 +/- 6.6 versus 55.4 +/- 4.5%) and rhabdomyosarcoma (46.6 +/- 5.7 versus 43.9 +/- 5.2%) cell lines. There was no difference between cord and adult LAK activity toward these targets. However, a differential response toward the more classical neuroblastoma cell line, SH-SY5Y, was noted with significantly more LAK cytotoxicity from cord mononuclear cells than adult mononuclear cells (51.2 +/- 6.9 versus 28.5 +/- 8.2%) (p less than or equal to 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lymphokine-activated killer cytotoxicity in neonatal mononuclear cells: in vitro responses to tumor cell lines from pediatric solid tumors. 253 88


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