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)

Although muscular activity has been demonstrated to regulate the expression of acetylcholinesterase (AChE) in cultured myotubes, the exact role of the presynaptic terminus in regulating AChE expression at the neuromuscular junctions is not known. A chimeric co-culture of neuroblastoma x glioma hybrid NG108-15 cells with chick myotubes was established. By using chick-specific anti-AChE antibody, a protein of approximately 105 kDa in size corresponding to chick AChE catalytic subunit was revealed by Western blot analysis from the extracts of neuron-muscle co-cultures. In the co-cultures, NG108-15 cells induced the up regulation of muscle AChE expression by approximately 2.5-fold, while the control protein, chick muscle alpha-actinin at approximately 100 kDa, remained relatively unchanged. The NG108-15 cell-induced muscle AChE expression in the co-cultures was persistent when the muscular activity was blocked by alpha-bungarotoxin. In order to determine the AChE-inducing activity derived from NG108-15 cells, the cultured chick myotubes were treated with either conditioned medium of NG108-15 cells or its cell lysate. However, the muscle AChE, both in protein and activity levels, remained relatively unchanged. Our finding suggests that an AChE-inducing factor(s) is derived from the neuroblastoma cells in the co-cultures, but that may require the nerve-muscle contacts in culture.
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PMID:NG108-15 cells induce the expression of muscular acetylcholinesterase when co-cultured with myotubes. 940 63

The use of model systems derived from cell lines has been a valuable tool in understanding the molecules and cellular processes that govern differentiation processes (T.R. Breitman, S.E. Selonick, S.J. Collins, Induction of differentiation of the human promyelocytic leukemia cell line (HL-60) by retinoic acid, Proc. Natl. Acad. Sci. USA 77 (1980) 2936-2940 [2]; N. Gomez, S. Traverse, P. Cohen, Identification of a MAP kinase in phaeochromocytoma (PC12) cells, FEBS Lett. 314 (1992) 461-465 [4]). The use of such systems provides an inexpensive, quick and simple way to identify and test molecules that can be further studied in more complex in vivo experiments. Some cell lines such as embryonic stem cells can be induced to differentiate in vitro, however, the differentiation is difficult to control and most often leads to the generation of a wide variety of cell types. Cell lines derived from sources committed to a restricted cell fate provide an opportunity to examine cell growth and differentiation within a specific cell type (G.M. Keller, In vitro differentiation of embryonic stem cells, Curr. Opin. Cell Biol. 7 (1995) 862-869 [10]). In this article we describe a simple system for the differentiation of the human neuroblastoma cell line LA-N-5 into cholinergic neurons using all-trans retinoic acid (G. Han, B. Chang, M.J. Connor, N. Sidell, Enhanced potency of 9-cis versus all-trans retinoic acid to induce the differentiation of human neuroblastoma cells, Differentiation, 59 (1995) 61-69 [5]; D.P. Hill, K.R. Robertson, Characterization of the cholinergic neuronal differentiation of the human neuroblastoma cell line LA-N-5 after treatment with retinoic acid, Dev. Brain Res. 102 (1997) 53-67 [6]; J.A. Robson, N. Sidell, Ultrastructural features of a human neuroblastoma cell line treated with retinoic acid, Neuroscience 14 (1985) 1149-1162 [12]; N. Sidell, C.A. Lucas, G.W. Kreutzberg, Regulation of acetylcholinesterase activity by retinoic acid in a human neuroblastoma cell line, Exp. Cell Res. 155 (1984) 305-309 [14]). These cells provide a setting for the study of cholinergic neuronal differentiation and of the factors that influence that process. We also discuss procedures that can be used to study gene expression in LA-N-5 cells by immunohistochemistry and reporter gene analysis.
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PMID:Differentiation of LA-N-5 neuroblastoma cells into cholinergic neurons: methods for differentiation, immunohistochemistry and reporter gene introduction. 950 16

Carboxylesterases (CbxE) can be inhibited by organophosphorus esters (OPs) without causing clinical evidence of toxicity. CbxE are thought to protect the critical enzyme acetylcholinesterase (AChE) from OP inhibition in animals. CbxE and AChE are both present in neuroblastoma cells, but, even though these cells have potential to be an in vitro model of OP toxicity, the effect of OPs on CbxE and the relationship of CbxE inhibition and AChE inhibition have not yet been examined in these cells. Therefore, this study examined concentration-related OP-induced inhibition of CbxE in human SH-SY5Y and mouse NB41A3 neuroblastoma cells with 11 active esterase inhibitors: paraoxon, malaoxon, chlorpyrifos-oxon, tolyl saligenin phosphate (TSP), phenyl saligenin phosphate (PSP), diisopropyl phosphorofluoridate (DFP), mipafox, dichlorvos, trichlorfon, dibutyryl dichlorovinyl phosphate (DBVP), and dioctyl dichlorovinyl phosphate (DOVP). All could inhibit CbxE, although the enzyme was less likely to be inhibited than AChE following exposure to 9 of the test compounds in the human cell line and to all 11 of the test compounds in the murine cell line. Species differences in concentration-related inhibitions of CbxE were evident. When cells were exposed first to an OP with a low IC50 toward CbxE (PSP), followed by an OP with high affinity for AChE (paraoxon or malaoxon), inhibitions of CbxE and AChE were additive. This indicated that CbxE did not protect AChE from OP-induced inhibition in this cell culture model.
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PMID:Inhibition of carboxylesterases in SH-SY5Y human and NB41A3 mouse neuroblastoma cells by organophosphorus esters. 951 41

The effects of the carbamate physostigmine and of the organophosphates (OPs) parathion, paraoxon and phenyl saligenin cyclic phosphate (PSP) were examined on different subtypes of neuronal nicotinic acetylcholine receptors (nAChR). Stimulation with 1 mM ACh induced transient nicotinic inward currents in mouse N1E-115 and human SH-SY5Y neuroblastoma and in locust thoracic ganglion cells. All four acetylcholinesterase (AChE) inhibitors reduced the nicotinic currents in a concentration-dependent manner. Parathion is about 50 times more potent in blocking nAChR, compared to its active AChE inhibiting metabolite paraoxon. The relative blocking potency of the different AChE inhibitors was the same in all cell types, and followed the order parathion > physostigmine > PSP > paraoxon. In N1E-115 cells the IC50 values of block amounted to 2 microM, 30 microM, 39 microM and 96 microM for parathion, physostigmine, PSP and paraoxon, respectively. In all cell types, the nicotinic currents were equally blocked by parathion. Human nAChR in SH-SY5Y cells appeared more sensitive to block by physostigmine, PSP and paraoxon, while these AChE inhibitors similarly inhibited nicotinic currents in insect cells and in mouse neuroblastoma cells. The observation that the concentration-dependence of block is different from that of AChE inhibition, indicates a distinct interaction of AChE inhibitors with nAChR. Only in locust cells physostigmine induced a non-desensitizing inward current, that appeared to originate from nAChR activation. Occasionally, the OPs were able to activate slow ionic currents in mouse, but not in human and locust cells. As the OP-induced agonistic activity in mouse cells was not associated with the blocking action, the target site appeared to be distinct from nAChR. These results show that AChE inhibitors block nAChR with different potencies, dependent on the compound and the receptor subtype, and may activate distinct ion currents in neuronal cells of different species origin.
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PMID:Differential effects of physostigmine and organophosphates on nicotinic receptors in neuronal cells of different species. 986 67

The senile plaques present in Alzheimer's disease (AD) are composed of a core of amyloid beta-peptide (Abeta) plus several proteins including acetylcholinesterase (AChE). Recently we found that AChE forms complexes with the Abeta peptide in vitro and that these are more cytotoxic than Abeta fibrils alone. Considering that estrogen has been reported to act as a protective agent against Abeta-induced cytotoxicity, the effect of 17beta-estradiol was studied in rat pheochromocytoma (PC12) and mouse neuroblastoma (Neuro 2a) cells exposed to either Abeta alone or AChE-Abeta complexes. Estrogen showed a powerful protective effect in response to the challenge of AChE-Abeta complexes as well as with Abeta fibrils. This was also the case for other cytotoxic agents such as glutamate and H2O2. Our results suggest a common mechanism for cellular protection by estrogen against the toxicity of both Abeta fibrils and AChE-Abeta complexes, likely avoiding the free radical apoptotic pathway.
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PMID:Estrogen protects neuronal cells from the cytotoxicity induced by acetylcholinesterase-amyloid complexes. 988 88

The in vitro and in vivo effects of the novel acetylcholinesterase inhibitors donepezil and NXX-066 have been compared to tacrine. Using purified acetylcholinesterase from electric eel both tacrine and donepezil were shown to be reversible mixed type inhibitors, binding to a similar site on the enzyme. In contrast, NXX-066 was an irreversible non-competitive inhibitor. All three compounds were potent inhibitors of rat brain acetylcholinesterase (IC50 [nM]; tacrine: 125 +/- 23; NXX-066: 148 +/- 15; donepezil: 33 +/- 12). Tacrine was also a potent butyrylcholinesterase inhibitor. Donepezil and tacrine displaced [3H]pirenzepine binding in rat brain homogenates (IC50 values [microM]; tacrine: 0.7; donepezil: 0.5) but NXX-066 was around 80 times less potent at this M1-muscarinic site. Studies of carbachol stimulated increases in [Ca2+]i in neuroblastoma cells demonstrated that both donepezil and tacrine were M1 antagonists. Ligand binding suggested little activity of likely pharmacological significance with any of the drugs at other neurotransmitter sites. Intraperitoneal administration of the compounds to rats produced dose dependent increases in salivation and tremor (ED50 [micromol/kg]; tacrine: 15, NXX-066: 35, donepezil: 6) with NXX-066 having the most sustained effect on tremor. Following oral administration, NXX-066 had the slowest onset but the greatest duration of action. The relative potency also changed, tacrine having low potency (ED50 [micromol/kg]; tacrine: 200, NXX-066: 30, donepezil: 50). Salivation was severe only in tacrine treated animals. Using in vivo microdialysis in cerebral cortex, both NXX-066 and tacrine were found to produce a marked (at least 30-fold) increase in extracellular acetylcholine which remained elevated for more than 2 h after tacrine and 4 h after NXX-066.
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PMID:A comparative study in rats of the in vitro and in vivo pharmacology of the acetylcholinesterase inhibitors tacrine, donepezil and NXX-066. 1019 9

Developing animals are more sensitive than adults to acute cholinergic toxicity from anticholinesterases, including organophosphorus pesticides, when administered in a laboratory setting. It is also possible that these agents adversely affect the process of neural development itself, leading to permanent deficits in the architecture of the central and peripheral nervous systems. Recent observations indicate that organophosphorus exposure can affect DNA synthesis and cell survival in neonatal rat brain. New evidence that acetylcholinesterase may have a direct role in neuronal differentiation provides additional grounds for interest in the developmental toxicity of anticholinesterases. For example, correlative anatomic studies show that transient bursts of acetylcholinesterase expression often coincide with periods of axonal outgrowth in maturing avian, rodent, and primate brain. Some selective cholinesterase inhibitors effectively suppress neurite outgrowth in model systems like differentiating neuroblastoma cells and explanted sensory ganglia. When enzyme expression is altered by genetic engineering, acetylcholinesterase levels on the outer surface of transfected neurons correlate with ability to extend neurites. Certain of these "morphogenic" effects may depend on protein-protein interactions rather than catalytic acetylcholinesterase activity. Nonetheless, it remains possible that some pesticides interfere with important developmental functions of the cholinesterase enzyme family.
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PMID:Cholinesterases in neural development: new findings and toxicologic implications. 1022 7

The ability of bromine and rat liver microsomes (RLM) to convert organophosphorus (OP) protoxicants to esterase inhibitors was determined by measuring acetylcholinesterase (AChE) and neuropathy target esterase (NTE) inhibition. Species specific differences in susceptibility to esterase inhibition were determined by comparing the extent of esterase inhibition observed in human neuroblastoma cells and hen, bovine, and rodent brain homogenates. OP protoxicants examined included tri-o-tolyl phosphate (TOTP), O-ethyl O-p-nitrophenyl phenylphosphonothioate (EPN), leptophos, fenitrothion, fenthion, and malathion. Bromine activation resulted in greater AChE inhibition than that produced by RLM activation for equivalent concentrations of fenitrothion, malathion, and EPN. For EPN and leptophos, bromine activation resulted in greater inhibition of NTE than RLM. Only preincubation with RLM activated TOTP; resultant inhibition of AChE was less in hen brain (13 +/- 3%) than in neuroblastoma cells (73 +/- 1%) at 10(-6) M. In contrast, 10(-6) M RLM-activated TOTP produced more inhibition of hen brain NTE (89 +/- 6%) than NTE of human neuroblastoma cells (72 +/- 7%). Human neuroblastoma cells and brain homogenates from hens, the accepted animal model for study of OP-induced neurotoxicity, were relatively similar in sensitivity to esterase inhibition. Homogenates from hens were more sensitive to NTE inhibition induced by phenyl saligenin phosphate (PSP), an active congener of TOTP, than were homogenates from less susceptible species (mouse, rat, bovine). AChE of hen brain homogenates was also more sensitive than homogenates from other species to malaoxon, the active form of malathion.
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PMID:Comparative effectiveness of organophosphorus protoxicant activating systems in neuroblastoma cells and brain homogenates. 1032 2

There is accumulating evidence that acetylcholinesterase has secondary noncholinergic functions, related to adhesion, differentiation, and the deposition of beta-amyloid in Alzheimer's disease. We have observed that the specific acetylcholinesterase peripheral anionic site inhibitors, BW284c51 and propidium iodide, abrogated cell-substrate adhesion in three human neuroblastoma cell lines. The active-site inhibitors, eserine and edrophonium, in contrast, had no effect. Certain anti-AChE antibodies were also shown to inhibit adhesion. Of these, the most effective were a monoclonal (E8) and a polyclonal having cholinesterase-like catalytic activity. These were raised against an acetylcholinesterase-inhibitor complex, implying that the epitope is associated with active-site structures. Two other monoclonal antibodies (E62A1 and E65E8) partially inhibited adhesion. The epitopes of these antibodies have been shown to overlap the peripheral anionic site of acetylcholinesterase. Competition ELISA between the monoclonal antibodies and inhibitors indicated competition between E8, E62A1, and E65E8 and the peripheral-site inhibitors BW284c51 and propidium, but not with the active-site inhibitors eserine and edrophonium. Fluorescence titration between antibodies and propidium confirmed these results. We conclude that the adhesion function of acetylcholinesterase is located at the peripheral anionic site. This has implications, not only for our understanding of neural development and its disorders, but also for the treatment of neuroblastoma, the leukemias, and Alzheimer's disease.
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PMID:The adhesion function on acetylcholinesterase is located at the peripheral anionic site. 1032 59

Chlorpromazine and other phenothiazine derivatives are neuroleptic drugs of widespread use for clinical situations beyond the realm of psychiatry, such as to control nausea, vomiting and intractable hiccups. The present study investigated in vitro different cytotoxic effects of chlorpromazine in cultures of mouse neuroblastoma cell line Neuro-2a exposed to different concentrations of this compound. Indicators assessed were cell proliferation by quantification of total protein content of the cell culture, lysosomal function evaluated by the relative uptake of neutral red cytosolic phosphofructokinase (PFK) and enolase (ENL) activities in glycolysis, mitochondrial succinate dehydrogenase (SDH) activity in the citric acid cycle, lysosomal beta-galactosidase (GAL) activity, and neuronal acetylcholinesterase activity. Marked inhibitory effects were found for cell proliferation and relative neutral red uptake; PFK, ENL and GAL activities had no significant differences from control. Stimulation was specifically detected on SDH and the Krebs cycle at concentrations up to 30 microM. Chlorpromazine did not have high toxicity for cytotoxic effects on lysosomes.
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PMID:Biochemical effects of chlorpromazine on mouse neuroblastoma cells. 1050 25

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