Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human IgM kappa antibody to a membrane antigen of human tumors of neuroectodermal origin (melanoma, glioma and neuroblastoma) has been detected in the spent culture fluid of an Epstein-Barr virus (EBV)-transformed human B-lymphoblastoid cell line, L72. The chemical nature of the antigen was identified as ganglioside GD2. The antibody was purified by precipitation of L72 culture fluid with ammonia sulfate and hypotonic buffer followed by ultracentrifugation and Sephacryl S-300 super gel filtration. Approximately 27 mg of pure human IgM was obtained from 101 of spent medium. Total IgM and antibody activity recovery efficiency was 60% and 75%, respectively. The monoclonal character of the immunoglobulin produced by the L72 cell line was determined by agarose isoelectric focusing and immunofixation techniques. 1 mg of the purified IgM possessed an antibody titer endpoint to a GD2-positive melanoma cell line of 1:10,000 as assayed by immune adherence and 1:100 titer by complement-dependent cytotoxicity in vitro. The effect of pure anti-GD2 on suppression of melanoma growth in vivo was tested using a nude mouse model. Three-week-old CD-1 nude mice bearing 2-3 mm M14-A subcutaneous melanoma nodules were treated intraperitoneally with anti-GD2 and rabbit complement. Tumor growth was retarded for 25 days when compared to that of control mice receiving non-specific human IgM and complement. On Day 15, treated tumors were 80% smaller than control tumors. These result indicated that the pure human monoclonal antibody to GD2 may have potential for cancer therapy.
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PMID:Human monoclonal antibody to tumor-associated ganglioside GD2. 609 19

Increased ammonia has been considered a key factor in the pathogenesis of hepatic encephalopathy. The high concentration of ammonia interferes with oxidative metabolism in the brain through an inhibitory effect on the tricarboxylic acid cycle (TCA). Inhibition of the TCA cycle may result in depletion of ATP. Due to the involvement of astrocytes in brain detoxification of ammonia, these cells are good candidates for studying ammonia's effect on energy stores in the brain. C6-glioma cells, which have altered glycolytic rates, may show greater sensitivity to the toxicity of ammonium chloride than astrocytes. To study the effect of ammonium chloride on energy storage of both astrocytes and C6-glioma, we observed the acute and chronic effects of NH4Cl (7.5 or 15 mM) on the metabolism of isolated astrocytes and C6-glioma cells. Primary astrocytes were isolated from the cerebral hemispheres of 1-2 day old Sprague-Dawley rats, and C6-glioma cells were purchased from the American Type Culture Collection (ATCC). Following treatment of the cells with ammonia, glucose, lactate, glutamate, ATP, and PCr were assayed. Our data showed that at 15 min following treatment with NH4Cl, there were no significant differences in the concentration of metabolites measured in astrocytes. However, following 15 min of treatment with NH4Cl, the concentration of some metabolites, for example, ATP and lactate, changed significantly in C6-glioma cells. We have shown that 24 h of treatment was sufficient time to see significant biochemical changes but not morphological changes in either cell type. Simultaneous biochemical and morphological changes were observed 48 h following treatment in C6-glioma cells and at 9-10 days following treatment in primary astrocytes. In primary astrocytes at 24 h following treatment, glucose utilization increased. This high utilization of glucose was in accordance with the increase in lactate and glutamate production and the decrease in ATP and PCr formation. In C6-glioma cells the utilization of glucose increased but this high utilization of glucose was consistent with a significant decrease in the concentration of lactate, glutamate and ATP.
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PMID:Effect of ammonium chloride on energy metabolism of astrocytes and C6-glioma cells in vitro. 947 2

Glutamine synthesis, the major pathway of ammonia detoxification, and the intracellular concentration of organic osmolytes in primary astrocytes and F98 glioma cells were investigated with multinuclear magnetic resonance spectroscopy. Acute exposure to ammonia (3 h incubation with NH4Cl) raised the concentration of glutamine and other amino acids, such as glutamate and aspartate, and decreased myo-inositol, hypotaurine, and taurine concentrations. The loss of these osmolytes was partially reversed by co-treatment with the glutamine synthetase inhibitor, methionine sulphoximine. Glutamate, the precursor of glutamine, is provided by stimulated anaplerotic flux via pyruvate carboxylase and glutamate dehydrogenase activity. Thus, the glutamine increase and myo-inositol decrease observed by in vivo magnetic resonance spectroscopy on patients with hepatic encephalopathy may be due to the disturbed osmoregulation in astrocytes caused by accumulation of glutamine and the subsequent loss of organic osmolytes.
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PMID:Multinuclear NMR spectroscopy studies on NH4Cl-induced metabolic alterations and detoxification processes in primary astrocytes and glioma cells. 977 80

Elevated brain ammonia levels are a major factor in the genesis of hepatic encephalopathy (HE). The mechanism of ammonium chloride (NH4Cl) neurotoxicity involves interruption of oxidative metabolism. This leads to decreased levels of ATP concentration and subsequent glial fibrillary acidic protein (GFAP) degradation of astrocytes and fibrous C6-glioma cells. Our study investigates NH4Cl toxicity by evaluating changes in ATP concentration and mitochondrial function as well as by evaluating alterations in GFAP expression. NH4Cl induced decreases in ATP were detected after 15 minutes in C6-glioma cells and 24 hours in both cell types. Mitochondrial function, assessed by MTT (2-4,5-dimethylthiazol A-yl)-2, 5-diphenyltetrazolium bromide) assay, was impaired in both cell types at 24 hours following NH4Cl treatment. GFAP was also significantly decreased in both cell types. Morphologic and metabolic toxicities were greater in C6-glioma cells. The data clearly indicate that NH4Cl interrupts oxidative metabolism. The greater toxicity seen in C6-glioma cells may be due to their greater dependence on oxidative metabolism. Lastly, the decrease in GFAP is probably a consequence of diminished ATP.
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PMID:Responses in primary astrocytes and C6-glioma cells to ammonium chloride and dibutyryl cyclic-AMP. 1078 13

Ammonia is a neurotoxin whose administration in large doses causes coma and death of the exposed animals, but whether and in what degree these whole body effects are related to the death of CNS cells is not known. Since the downstream effects of ammonia in cultured CNS cells appear to be partly mediated by overactivation of several putative signalling mechanisms characteristic for the apoptotic program, we speculated that ammonia neurotoxicity may be apoptogenic. In this study, C6 glioma cells grown in 2% serum were exposed to 5 mM or 10 mM NH(4)Cl (ammonia) for 96 h and tested for the appearance of apoptosis by (a) Hoechst staining, (b) TUNEL reaction and (c) DNA ladder, at different times of exposure. In cultures exposed to either 5 mM or 10 mM ammonia, about 10% of the cells were found to enter apoptosis at 48 h of exposure, and the number of apoptotic cells rose to 30% at 72 h, and to 50% at 96 h of exposure, respectively. The first transduction signal purportedly involved in apoptosis, activation of PKCalphabeta, was transient and appeared already after 3-6 h of treatment. Coincident with pronounced manifestation of apoptosis (at 72 h and even more at 96 h of exposure) was an increased transfer of the transcription factor NFkappaB from cytoplasmto nucleus as revealed by EMSA assay. The number of cells affected by ammonia-induced apoptosis was markedly reduced by incubation with a NOS inhibitor, L-NAME at 100 microM concentration. The results indicate that ammonia-induced apoptosis is a result of a complex interplay of at least three signalling molecules: NO, PKC and the transcription factor NFkappaB, with NFkappaB being possibly involved in the induction of iNOS and generation of toxic levels of NO in the cells.
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PMID:Delayed induction of apoptosis by ammonia in C6 glioma cells. 1081 14

Cytotoxic polyamine-derived amino aldehydes, formed during cerebral ischaemia, damage adjacent tissue (the so-called 'penumbra') not subject to the initial ischaemic insult. One such product is 3-aminopropanal (3-AP), a potent cytotoxin that accumulates in ischaemic brain, although the precise mechanisms responsible for its formation are still unclear. More relevant to the present investigations, the mechanisms by which such a small aldehydic compound might be cytotoxic are also not known, but we hypothesized that 3-AP, having the structure of a weak lysosomotropic base, might concentrate within lysosomes, making these organelles a probable focus of initial toxicity. Indeed, 3-AP leads to lysosomal rupture of D384 glioma cells, a process which clearly precedes caspase activation and apoptotic cell death. Immunohistochemistry reveals that 3-AP concentrates in the lysosomal compartment and prevention of this accumulation by the lysosomotropic base ammonia, NH(3), protects against 3-AP cytotoxicity by increasing lysosomal pH. A thiol compound, N-(2-mercaptopropionyl)glycine, reacts with and neutralizes 3-AP and significantly inhibits cytoxocity. Both amino and aldehyde functions of 3-AP are necessary for toxicity: the amino group confers lysosomotropism and the aldehyde is important for additional, presently unknown, reactions. We conclude that 3-AP exerts its toxic effects by accumulating intralysosomally, causing rupture of these organelles and releasing lysosomal enzymes which initiate caspase activation and apoptosis (or necrosis if the lysosomal rupture is extensive). These results may have implications for the development of new therapeutics designed to lessen secondary damage arising from focal cerebral ischaemia.
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PMID:3-Aminopropanal, formed during cerebral ischaemia, is a potent lysosomotropic neurotoxin. 1251 95

Nicotinamide-adenine dinucleotide (NAD+) synthetases catalyze the last step in NAD+ metabolism in the de novo, import, and salvage pathways that originate from tryptophan (or aspartic acid), nicotinic acid, and nicotinamide, respectively, and converge on nicotinic acid mononucleotide. NAD+ synthetase converts nicotinic acid adenine dinucleotide to NAD+ via an adenylylated intermediate. All of the known eukaryotic NAD+ synthetases are glutamine-dependent, hydrolyzing glutamine to glutamic acid to provide the attacking ammonia. In the prokaryotic world, some NAD+ synthetases are glutamine-dependent, whereas others can only use ammonia. Earlier, we noted a perfect correlation between presence of a domain related to nitrilase and glutamine dependence and then proved in the accompanying paper (Bieganowski, P., Pace, H. C., and Brenner, C. (2003) J. Biol. Chem. 278, 33049-33055) that the nitrilase-related domain is an essential, obligate intramolecular, thiol-dependent glutamine amidotransferase in the yeast NAD+ synthetase, Qns1. Independently, human NAD+ synthetase was cloned and shown to depend on Cys-175 for glutamine-dependent but not ammonia-dependent NAD+ synthetase activity. Additionally, it was claimed that a 275 amino acid open reading frame putatively amplified from human glioma cell line LN229 encodes a human ammonia-dependent NAD+ synthetase and this was speculated largely to mediate NAD+ synthesis in human muscle tissues. Here we establish that the so-called NADsyn2 is simply ammonia-dependent NAD+ synthetase from Pseudomonas, which is encoded on an operon with nicotinic acid phosphoribosyltransferase and, in some Pseudomonads, with nicotinamidase.
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PMID:The reported human NADsyn2 is ammonia-dependent NAD synthetase from a pseudomonad. 1277 95

Both short-term and prolonged treatment with ammonia stimulate Tau efflux from C6 glioma cells, which confirms earlier observations with different CNS preparations. In addition, prolonged, but not short-term treatment reversibly decreases Tau uptake. The results are consistent with in vivo observations showing robust extracellular accumulation of Tau in the CNS under hyperammonemic conditions. Enhancement of Tau efflux by short term ammonia treatment is associated with its passage via a channel (or channels) which in contrast to the release from control cells is (are) not inhibited by NA. However, the increased Tau efflux does not appear to involve active Tau transport. Insensitivity to NA distinguishes ammonia-dependent Tau efflux from C6 cells from that reported in other CNS-derived preparations. Tau release evoked by prolonged ammonia treatment likewise shows a NA-insensitive component, but also a component associated with activation of Tau transport in a reverse mode. Increased outward transport of Tau may be associated with transiently increased expression of TauT mRNA. Mutual relation of the two components, but also the identity of the NA-insensitive efflux route with the anion channels so far described remains to be analyzed.
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PMID:Effect of ammonia on taurine transport in C6 glioma cells. 1290 31

The potential cytoprotective effects of estrogen in the brain are of special interest in aging, neurodegenerative diseases, exposure to toxins, and trauma. Estrogen effects on neurons have been widely explored, but less is known about estrogen effects on glia. Glial cells are primary targets of ammonia toxicity, which arises from liver disease or failure (such as from cirrhosis in alcoholics), urea cycle disorders, or inborn errors of metabolism. We examined the ability of estrogen to protect glial cells from ammonium chloride toxicity using an in vitro model system. C6-glioma cells in later passage have many astrocytic characteristics and provided a convenient and well established model system for this work. When C6-glioma cells were exposed to 15 mM ammonium chloride, we observed major cell death (only 32% cell survival relative to control) within 72 h. Pretreatment with 17beta-estradiol (10 microM) significantly protected C6-glioma cells from ammonia toxicity (99% cell survival relative to control). In addition to enhancing the viability of C6-glioma cells against ammonia challenge, estrogen pretreatment was also found to protect mitochondrial function as assayed using the MTT reduction assay. Mitochondrial function was reduced to 39% of control levels in ammonia-challenged cultures and was mostly protected by estrogen (72% of control levels). The findings are potentially relevant for the development of therapeutic strategies to protect glial cells against ammonia toxicity resulting from hepatic failure or other causes.
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PMID:Cytoprotective effect of estrogen on ammonium chloride-treated C6-glioma cells. 1520 65

A previous study showed that treatment of C6 glioma cells with 10 mM ammonium chloride monia") for 24 h decreases taurine uptake and evokes sodium-dependent taurine efflux, indicating reversal of the taurine transporter (TauT)-mediated transport as an underlying mechanism. Consistent with the involvement of TauT we now show that the ammonia-induced changes in Tau uptake and efflux are inhibited by the protein kinase C (PKC) activator phorbol 12,13-dibutyrate (PDBu). Ammonia treatment of C6 cells resulted in increased intracellular accumulation of cAMP. Incubation of the cells with dibutyryl cAMP (dbcAMP) mimicked the effects of ammonia on both taurine uptake and efflux. The effects of dbcAMP on taurine uptake and efflux were additive to the effects of ammonia. Collectively, the results suggest that the effects of ammonia on taurine uptake and efflux may be partly mediated by cAMP. Consistent with this mechanism, the adenyl cyclase inhibitor, miconazole reduced the stimulation of efflux by ammonia.
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PMID:The role of protein kinase C and cyclic AMP in the ammonia-induced shift of the taurine uptake/efflux balance towards efflux in C6 cells. 1601 78


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