UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During inflammatory states, hepatocytes are induced to synthesize and secrete a group of proteins called acute-phase proteins. It has recently been shown that besides interleukin-6 (IL-6), related cytokines such as leukemia inhibitory factor, oncostation M and interleukin-11 are also mediators of the hepatic acute-phase response. All these mediators belong to the hematopoietic family of alpha-helical cytokines. Here we show that an additional member of this cytokine family, ciliary neurotrophic factor (CNTF), induces the hepatic acute-phase protein genes haptoglobin, alpha 1-antichymotrypsin, alpha 2-macroglobulin and beta-fibrinogen in human hepatoma cells (HepG2) and in primary rat hepatocytes with a time course and dose-response comparable with that of IL-6. Our next aim was to define the receptor components used by CNTF on hepatic cells. Using a cell-free binding assay we exclude that CNTF binds to the 80 kDa IL-6 receptor, a protein with significant homology to the CNTF receptor which has recently been cloned from neuroblastoma cells. In human hepatoma cells (Hep3B) which lack the leukemia inhibitory factor receptor, CNTF was not able to induce acute-phase protein synthesis, indicating that this receptor protein may be part of the functional CNTF receptor on hepatic cells.
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PMID:Ciliary neurotrophic factor induces acute-phase protein expression in hepatocytes. 128 89

We examined brains from Alzheimer's disease (AD) patients by immunohistochemistry for the presence of protease inhibitors. Immunoreactivity for alpha 2-macroglobulin (alpha 2-M), the most potent of the known human protease inhibitors, was found in a subgroup of cortical and hippocampal AD senile plaques. In addition, large hippocampal neurons in AD brains displayed intracellular alpha 2-M immunoreactivity which was consistently stronger than in normal aged brains. In cultured human cells of neurogenic origin (SH-SY5Y neuroblastoma cells), alpha 2-M synthesis could be strongly induced by the inflammatory cytokine interleukin-6 (IL-6) indicating that human alpha 2-M behaves as an acute-phase protein in the nervous system. Therefore, we also examined AD brains for the presence of IL-6 and found strong immunostaining in and around a subgroup of senile plaques as well as around large cortical neurons. Only very few senile plaques also stained for C-reactive protein, an acute phase protein known to be inducible by IL-6. We propose that the presence of IL-6 and alpha 2-M immunoreactivity in AD brains is functionally linked and that a sequence of immunological events is part of the pathology of AD.
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PMID:Detection of interleukin-6 and alpha 2-macroglobulin immunoreactivity in cortex and hippocampus of Alzheimer's disease patients. 137 Sep 67

Oncostatin-M (OM), a recently described glycoprotein cytokine, is structurally and functionally related to cholinergic differentiation factor/leukemia inhibitory factor (CDF/LIF) and ciliary neurotrophic factor (CNTF). To determine whether OM, like CDF/LIF and CNTF, possesses trophic or differentiative functions for neurons we examined the effects of recombinant human OM on ciliary neuron survival and neurotransmitter expression in sympathetic neurons. Like CDF/LIF, but in contrast to CNTF, OM had no effect on ciliary neuronal survival at any concentration tested. OM produced small but reproducible increases in choline acetyl transferase (ChAT) activity and vasoactive intestinal peptide (VIP) levels in rat sympathetic neuron cultures, but this effect was significantly less than that of CNTF or CDF/LIF. To determine if human OM would elicit a more robust response from human cells, we utilized a human neuroblastoma cell line, NBFL, that responds to CNTF and CDF/LIF by altering vasoactive intestinal peptide (VIP) levels. OM specifically elevated VIP and c-fos mRNA levels in NBFL cells and was as potent as CDF/LIF in this assay. Our data provides evidence that OM acts on neurons and identifies a neural cell line responsive to OM, CNTF, CDF/LIF.
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PMID:Oncostatin M regulates VIP expression in a human neuroblastoma cell line. 142 Oct 89

Human immunodeficiency virus (HIV) infection of brain macrophages and astroglial proliferation are central features of HIV-induced central nervous system (CNS) disorders. These observations suggest that glial cellular interactions participate in disease. In an experimental system to examine this process, we found that cocultures of HIV-infected monocytes and astroglia release high levels of cytokines and arachidonate metabolites leading to neuronotoxicity. HIV-1ADA-infected monocytes cocultured with human glia (astrocytoma, neuroglia, and primary human astrocytes) synthesized tumor necrosis factor (TNF-alpha) and interleukin 1 beta (IL-1 beta) as assayed by coupled reverse transcription-polymerase chain reaction, enzyme-linked immunosorbent assay, and biological activity. The cytokine induction was selective, cell specific, and associated with induction of arachidonic acid metabolites. TNF-beta, IL-1 alpha, IL-6, interferon alpha (IFN-alpha), and IFN-gamma were not produced. Leukotriene B4, leukotriene D4, lipoxin A4, and platelet-activating factor were detected in large amounts after high-performance liquid chromatography separation and correlated with cytokine activity. Specific inhibitors of the arachidonic cascade markedly diminished the cytokine response suggesting regulatory relationships between these factors. Cocultures of HIV-infected monocytes and neuroblastoma or endothelial cells, or HIV-infected monocyte fluids, sucrose gradient-concentrated viral particles, and paraformaldehyde-fixed or freeze-thawed HIV-infected monocytes placed onto astroglia failed to induce cytokines and neuronotoxins. This demonstrated that viable monocyte-astroglia interactions were required for the cell reactions. The addition of actinomycin D or cycloheximide to the HIV-infected monocytes before coculture reduced, > 2.5-fold, the levels of TNF-alpha. These results, taken together, suggest that the neuronotoxicity associated with HIV central nervous system disorders is mediated, in part, through cytokines and arachidonic acid metabolites, produced during cell-to-cell interactions between HIV-infected brain macrophages and astrocytes.
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PMID:Cytokines and arachidonic metabolites produced during human immunodeficiency virus (HIV)-infected macrophage-astroglia interactions: implications for the neuropathogenesis of HIV disease. 146 Apr 27

The biomolecular mechanisms that mediate signal transduction by type II (gamma) interferon (IFN) are poorly understood. IFN-gamma is a potent growth inhibitory cytokine also endowed with antiviral, immunomodulatory, and differentiating activities on various cell targets, including neural cells. IFN-gamma induced a rapid and transient activation of phospholipase A2 in LAN-5, a human neuroblastoma cell line. A consequence of phospholipase A2 activation was the release of arachidonic acid and the generation of lysophospholipids from membrane phospholipids. Treatment of pre-labeled LAN-5 cells with a receptor-saturating concentration of IFN-gamma led to a time-dependent release of [3H]arachidonic acid into the culture media and generation of [32P]lysophosphatidylcholine. Pretreatment of cultures with the phospholipase A2 inhibitor, bromophenacyl bromide, markedly inhibited both [3H]arachidonic acid release and lysophosphatidylcholine production induced by IFN-gamma treatment. Pretreatment of LAN-5 cells with nordihydroguaiaretic acid, a lipoxygenase inhibitor, or with indomethacin, a cyclooxygenase inhibitor, amplified the release of [3H]arachidonic acid and production of lysophosphatidylcholine induced by non-saturating concentrations of IFN-gamma. In parallel, and with the same time-dependent effect, a significant decrease in phosphatidylcholine labeling was observed in IFN-gamma-treated cells, further indicating that a potential signal transduction mechanism of IFN-gamma is the hydrolysis of membrane phosphatidylcholine by phospholipase A2.
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PMID:Stimulation of receptor-coupled phospholipase A2 by interferon-gamma. 152 78

The induction of human immunodeficiency virus type 1 (HIV-1) gene expression by cytokines was investigated in cells of central nervous system origin. These were human neuroblastoma, glioblastoma, and astrocytoma cell lines, a murine oligodendroglioma and primary murine astrocyte cultures. The cytokines used were tumor necrosis factor alpha (TNF alpha), interleukin-1 beta (IL-1 beta), IL-6, and interferons alpha and gamma (IFN alpha, gamma). Transient transfection of cells with a chloramphenicol acetyltransferase (CAT) reporter gene under the control of the HIV-1 long terminal repeat (LTR) showed significant augmentation following treatment by particular cytokines. TNF alpha was found to augment HIV LTR-directed CAT activity in all cell types. IL-1 beta also activated the HIV LTR reporter gene in glioblastoma, astrocytoma, and astrocyte cells. IL-6 enhanced HIV gene expression in one example only, the primary astrocyte cultures. The interferons generally suppressed expression from the LTR except IFN gamma which produced a twofold rise in the murine glial cells and IFN alpha augmenting expression in one neuroblastoma cell line. No synergy was observed between pairs of activating cytokines tested. The HIV tat gene product was found to be functional in all cells, cotransfection of a tat expression vector transactivating expression from the LTR, with varying degrees of efficiency. In some cell lines the combination of an activating cytokine and tat resulted in an enhancement above that obtained by cotransfection of tat alone. In others, the level of CAT activity did not significantly change. Analysis of nuclear extracts from cytokine-treated cells further implicated the involvement of NFKB in the induction of HIV-1 gene expression.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokine augmentation of HIV-1 LTR-driven gene expression in neural cells. 159 55

To define mechanisms by which inflammatory cells damage neural tissue, the author investigated stimuli that promote leukocyte adherence and injury to cultured human cortical neuron (HCN-1) and neuroblastoma cells (LAN-1 and SK-N-SH). Neutrophils do not adhere to unstimulated neural cells but will bind to neural cells that have been exposed to tumor necrosis factor alpha (TNF alpha) and in some cases other cytokines such as gamma interferon (gamma IFN) or interleukin-1 (IL-1). Tumor necrosis factor alpha induces synthesis of intercellular adhesion molecule-1 (ICAM-1) mRNA and cell surface expression of ICAM-1 on cultured neural cells. Adherence of neutrophils to cytokine-stimulated neural cells is mediated primarily by ICAM-1:LFA-1 interactions, because 70% to 90% of the binding can be blocked by monoclonal antibodies to either ligand. Prior introduction of an oxidizable dye, 5-(and 6-)carboxy-2',7' dichlorofluorescin diacetate into the LAN-1 cells demonstrates that adherent neutrophils can release oxidizing radicals into the neural cell cytoplasm. These results suggest that cytokines released in the course of inflammation may induce expression of ICAM-1 on neurons, allowing them to be targeted by leukocytes expressing the appropriate receptors. The resulting adhesive interactions may facilitate introduction of various toxic agents into the neural cytoplasm.
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PMID:Induction of ICAM-1 on human neural cells and mechanisms of neutrophil-mediated injury. 168 66

Expression of the Cytokine genes in human astroglial cell lineage was studied. Primers for 5 different human cytokine, TNF-alpha, -beta, IFN-gamma, G-CSF and GM-CSF, were used to analyze messenger RNA transcripts in 5 cultured human astrocytoma, one neuroblastoma cell lines and fresh brain specimens by polymerase chain reaction (PCR). Three out of 5 unstimulated astrocytomas, U138, U251, U373 MG and IMR32 neuroblastoma cells expressed TNF-alpha genes. After stimulation with IL-1 beta (1000 U/ml) all these cell lines expressed TNF-alpha genes. TNF-beta genes could not be detected in these cell lines even in the presence of any cytokine stimuli. We were able to detect expression of IFN-gamma genes within 2 astrocytoma cell lines (U87MG and A172), which interestingly did not show TNF-alpha activity. Constitutive expression of mRNA transcripts of GM -CSF could be detected in all astrocytoma and two out of 5 unstimulated astrocytomas, U87MG and U138MG, expressed G-CSF genes. After stimulation with IL-1 beta, all cell lines expressed G-CSF. In addition, we also examined gene expression of these cytokines within 4 human malignant astrocytoma specimens, 2 peritumoral brain and 2 autopsied normal brains. The results show that tumor and surrounding lesions express TNF-alpha (4 of 6), TNF-beta (1/6), IFN-gamma (4/6), G-CSF (3/6) and GM-CSF (5/6) but not normal brains. One tumor specimen also expresses TNF-beta as well as TNF-alpha genes (case 2). From these results, it is suspected that astroglial cell-derived cytokines may participate in local immune reactions accompanying glioma in the brain.
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PMID:[Expression of cytokine genes within astrocytoma cell lines and brain specimens]. 179 21

We have studied the effect of tumor necrosis factor (TNF-alpha) on transformed neural and glial-derived cell lines. TNF-alpha at physiological doses was able to arrest the growth and inhibit DNA synthesis of N103 neuroblastoma cells. This phenomenon was accompanied by a morphological cell differentiation characterized by the outgrowth of neurites. By contrast, TNF-alpha induced an increase in the growth rate of C6 glioma cells and upon cytokine addition a higher number of C6 cells were found in the S + G2 phase of the cell cycle. C6 cells did not show morphological changes under this treatment. Analogous results were obtained with IFN-gamma. These neurotrophic and mitogenic effects of TNF-alpha suggest a putative role of this cytokine in the regeneration of brain tissue upon brain injury.
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PMID:Differential effects of tumor necrosis factor on the growth and differentiation of neuroblastoma and glioma cells. 190 93

Five neuroblastoma cell lines have been examined for the induction of HLA class II antigens by a recombinant gamma-interferon. The expression of HLA-DR and -DP was induced on up to 80% of cells in two of five neuroblastoma cell lines examined (KP-N-SI and KP-N-RT). Low expression of HLA-DR and -DP was induced on the SK-N-DZ line in the presence of recombinant gamma-interferon for 10 days. In contrast HLA-DQ was not induced on any of five neuroblastoma cell lines studied. HLA-DR and -DP antigen induction was reversible, falling to nondetectable levels when interferon was removed from the culture medium. The reinduction of interferon to the culture medium again induced HLA-DR and -DP antigen expression in a fashion similar to that originally observed. These results were confirmed by Northern blot analysis using a probe to HLA-DR alpha mRNA. Recombinant interferon appears to induce HLA class II expression at the level of gene transcription or posttranscription. The results also indicate that HLA-DR, -DP, and -DQ antigens are independently regulated. Treatment of neuroblastoma cell lines with gamma-interferon results in the induction of a differentiated phenotype. Although the cytokine gamma-interferon induces neurofilament expression in some of the cell lines, this was not the case for all lines studied. Thus no correlation could be established between the morphological differentiation and either HLA class II or neurofilament expression. In addition, no correlation between response to recombinant interferon and N-myc amplification was noted. The biological significance of HLA class II expression on neuroblastoma cell lines by gamma-interferon may be related to the differentiation stage of neuroblastoma cells or may enable gamma-interferon-treated neuroblastoma cells to be recognized by cytotoxic T-cells.
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PMID:Differential susceptibility of HLA class II antigens induced by gamma-interferon in human neuroblastoma cell lines. 249 86

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