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)

1. Activities of acetylcholinesterase (AChE), neuropathy target esterase (NTE), and carboxylesterase (CbxE) were compared in neuroblastoma cells of human origin (SH-SY5Y) and murine origin (NB41A3). 2. Mouse neuroblastoma cells had lower specific activities of NTE and CbxE than did human neuroblastoma cells; specific activities in the murine cells correlated with specific activities in mouse brain. 3. AChE activities in mouse and human neuroblastoma cells were considerably lower than AChE activities in mouse or hen brain. 4. Inhibition of esterases did not demonstrate interspecies differences for 12 of the 17 anti-esterase compounds tested with human and mouse neuroblastoma cells.
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PMID:Esterase comparison in neuroblastoma cells of human and rodent origin. 755 40

The hydrolysis of the dimethyl ester of [1,4-14C]succinic acid and/or [2,3-14C]succinic acid was measured in homogenates of rat pancreatic islets, liver, jejunum, brain, BC3H1 mouse myocytes, NG108-19 mouse neuroblastoma x rat glioma hybrid cells, and Caco-2 human colon adenocarcinoma cells. The specific activity of the enzyme was much higher in liver, jejunum, and Caco-2 cells than in the other cell types. The affinity of the enzyme for succinic acid dimethyl ester (SAD) was also much higher in liver than in islet homogenates. In the latter case, both particulate and cytosolic activity were observed upon subcellular fractionation. The activity found in islet homogenates was commensurate with the rate of SAD hydrolysis in intact cells. While the intracellular pool of acidic metabolites generated from SAD remained fairly stable over a 15- to 120-min incubation and was mainly located in the cytosolic compartment, the amount of acidic metabolites released in the extracellular milieu progressively increased with the length of incubation. Such metabolites included both monocarboxylic and dicarboxylic acids, the latter consisting mainly of succinic acid and, to a much lesser extent, of fumaric acid and malic acid. However, at variance with SAD, succinic acid failed to be taken up by intact islets. There was no close parallelism between the specific activity of the SAD esterase and the extent of SAD utilization in distinct cell types.
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PMID:Hydrolysis of succinic acid dimethyl ester in rat pancreatic islets. 758 70

Little is known regarding early biochemical events in organophosphate-induced delayed neurotoxicity (OPIDN) except for the essential inhibition of neurotoxic esterase (NTE). We hypothesized that a trophic factor may be produced in situ shortly after exposure to the OP which participates in the progression of OPIDN. To bioassay for such a growth-modulating factor(s), we treated chickens with the neuropathic agents diisopropylfluorophosphate (DFP) or cyclic phenyl saligenin phosphate (PSP), with or without phenylmethylsulfonyl fluoride (PMSF, a chemical which markedly modifies OPIDN). Soluble extracts of cervical spinal cord (a region of the nervous system which degenerates with OPIDN) were collected 24 h later and these were incubated with human neuroblastoma SY5Y cells in culture. The cells were allowed to grow for another 6 days and observed for changes in morphology and growth. After 3 days in culture, tissue extracts from OP-treated chickens caused SY5Y cells to begin to elongate and extend processes (neurites), similar to cells treated with nerve growth factor (1 microgram/ml). Extracts from chickens not receiving OP had no or minimal effects on cell morphology. In addition, extracts from chickens in which OPIDN was prevented by pretreatment with PMSF did not cause the marked extension of cell processes exhibited after exposure of SY5Y cells to extracts from chickens given regimens known to cause OPIDN. In parallel-treated animals. DFP and PSP caused clinical dysfunction characteristic of OPIDN, PMSF posttreatment markedly amplified the clinical deficits and PMSF pretreatment prevented OPIDN. In vivo DFP treatment also caused a marked reduction in the activity of the growth-related enzyme ornithine decarboxylase (ODC) in spinal cord but DFP was without effect on ODC activity in vitro (up to 1 mM final concentration). Characterization of this growth-modulating factor(s) may aid in the elucidation of pathological mechanisms of OPIDN.
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PMID:Possible involvement of a neurotrophic factor during the early stages of organophosphate-induced delayed neurotoxicity. 786 17

Certain organophosphorus compounds (OPs) produce a delayed neuropathy (OPIDN) in man and some animal species. Capability to cause OPIDN is generally predicted in animal models by early and irreversible inhibition of neuropathy target esterase (NTE, neurotoxic esterase). In this study, NTE inhibition in response to OP exposure was examined in cell culture, using the human SH-SY5Y neuroblastoma cell line. Cells were exposed for 1 hr to equimolar (1 x 10(-5) M) concentrations of 6 OPs associated with OPIDN in vivo (including 2 protoxicants and 4 active (-P = O) toxicants), and 8 OPs that do not produce delayed neuropathy in animal models (including 5 protoxicants and 3 -P = O compounds). The -P = O compounds that cause OPIDN in animal models inhibited NTE > 60% at the test concentration; -P = O compounds that do not cause OPIDN in animal models inhibited NTE < 30%. Protoxicants did not inhibit NTE at the test concentration, reflecting their limited metabolism in the human cell line. These results indicate that human neuroblastoma cells have potential use in the initial screening of bioactive OPs with capability for causing OPIDN.
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PMID:Neuropathy target esterase inhibition by organophosphorus esters in human neuroblastoma cells. 799 Dec 19

A neuroblastoma cell line of human origin was used as an in vitro model system to examine early effects on inhibition of neuropathy target esterase (NTE, also known as neurotoxic esterase) in the presence of agents belonging to classes of chemicals previously demonstrated to modify organophosphorus-induced delayed neuropathy in hens. For this study, differentiated SY-5Y cells were treated for up to 10 min with mipafox, an organophosphorus compound, and NTE inhibition was determined when cells exposed to mipafox were also exposed to the carbamate, aldicarb, and to the calcium channel blocker, verapamil. Cells were exposed to aldicarb or verapamil 5 min before, at the same time, or 2 min after mipafox. Less NTE inhibition was observed when either aldicarb or verapamil was included in the incubation of SY-5Y cells with mipafox. Effects of aldicarb and verapamil on NTE inhibition in differentiated SY-5Y cells were similar to effects in chicken brain homogenates. These results indicate that NTE inhibition can be detected in neuroblastoma cells, that these cells respond in a manner similar to chicken brain, and that mipafox-induced inhibition of NTE can be decreased in the presence of aldicarb or verapamil.
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PMID:Modification of mipafox-induced inhibition of neuropathy target esterase in neuroblastoma cells of human origin. 833 99

Neuroblastoma cell lines were used to examine the differential interspecies response (i.e., species selectivity) to organophosphates (OPs). Baseline activities of the major target esterases, i.e., cholinesterase, carboxylesterase, and neurotoxic esterase, were assayed in mouse and several human neural candidate cell lines. These activities were found to be variable within individual cell lines and among the various tested cell lines. Cytotoxicity data using the neutral red fluorometric assay were collected on both human (SH-SY5Y) and mouse (NB41A3) neuroblastoma clones exposed to a variety of OP insecticides. IC50 data indicated that the tested mouse cell line was consistently more sensitive than the human cell line to equimolar doses of various OP compounds (e.g., mipafox, parathion, paraoxon, DFP, leptophos oxon, fenthion, and fenitrothion). This difference in cytotoxic sensitivity was most pronounced in response to compounds requiring metabolic bioactivation (i.e., protoxicants). Cytotoxicity data also demonstrated that the NB41A3 mouse neuroblastoma cell line was more metabolically competent than the SH-SY5Y human cell line in converting the protoxicant parathion to its neurotoxic metabolite, paraoxon. B-lymphoblastoids, genetically engineered with human P450 cDNAs, demonstrated higher cytotoxic sensitivity to parathion than unengineered cells, indicating that cytochrome P450-associated monooxidase activity could also influence cytotoxic sensitivity to parathion in culture. These data suggest that interspecies-selectivity in response to OP-related cytotoxicity is influenced by intercellular differences in metabolism and baseline esterase activities.
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PMID:Differential cytotoxic sensitivity in mouse and human cell lines exposed to organophosphate insecticides. 851 93

The toxicity of dimethoate, azinphos-methyl, diazinon, pirimiphos methyl, organophosphorus insecticides, and benomyl (a benzimidazole fungicide) singly and in mixture was studied in a human neuroblastoma cell line, SH-SY5Y. The cells were incubated for 30 min and 4 h with pesticides at concentrations ranging from 0.4 to 100 micrograms/ml, or with the same compounds mixed as follows: (a) dimethoate-diazinon-azinphos; (b) benomyl-pirimiphos; (c) all together. Pesticides in the mixtures were at the same concentration used when tested singly. Diazinon, azinphos-methyl and pirimiphos, but not dimethoate and benomyl, inhibited acetylcholine esterase (AchE) activity, whereas all the compounds inhibited protein synthesis in the following order: benomyl > azinphos > diazinon >> pirimiphos = dimethoate. The mixtures showed a toxicity on AchE activity at a maximum equal to that of the most active compound in the mixture. On the contrary, the mixture were more toxic than the single compounds on protein synthesis, and in certain cases potentiation occurred. Therefore, we can conclude that it is not feasible to predict the toxicity of pesticide mixtures on the basis of the results of the toxicity of single components.
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PMID:Effect of pesticide mixtures on in vitro nervous cells: comparison with single pesticides. 865 39

The differential inhibition of the target esterases acetylcholinesterase (AChE) and neuropathy target esterase (NTE, neurotoxic esterase) by organophosphorus compounds (OPs) is followed by distinct neurological consequences in exposed subjects. The present study demonstrates that neuroblastoma cell lines (human SH-SY5Y and murine NB41A3) can be used to differentiate between neuropathic OPs (i.e., those inhibiting NTE and causing organophosphorus-induced delayed neuropathy) and acutely neurotoxic OPs (i.e., those highly capable of inhibiting AChE). In these experiments, concentration-response data indicated that the capability to inhibit AChE was over 100x greater than the capability to inhibit NTE for acutely toxic, nonneuropathic OPs (e.g., paraoxon and malaoxon) in both cell lines. Inhibition of AChE was greater than inhibition of NTE, without overlap of the concentration-response curves, for OPs which are more likely to cause acute, rather than delayed, neurotoxic effects in vivo (e.g., chlorpyrifos-oxon, dichlorvos, and trichlorfon). In contrast, concentrations inhibiting AChE and NTE overlapped for neuropathy-causing OPs. For example, apparent IC50 values for NTE inhibition were less than 9.6-fold the apparent IC50 values for AChE inhibition when cells were exposed to the neuropathy-inducing OPs diisopropyl phosphorofluoridate, cyclic tolyl saligenin phosphate, phenyl saligenin phosphate, mipafox, dibutyl dichlorovinyl phosphate, and di-octyl-dichlorovinyl phosphate. In all cases, esterase inhibition occurred at lower concentrations than those needed for cytoxicity. These results suggest that either mouse or human neuroblastoma cell lines can be considered useful in vitro models to distinguish esterase-inhibiting OP neurotoxicants.
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PMID:Acetylcholinesterase and neuropathy target esterase inhibitions in neuroblastoma cells to distinguish organophosphorus compounds causing acute and delayed neurotoxicity. 926 5

The novel endogenous cannabinoid 2-arachidonoylglycerol (2-AG) was rapidly inactivated by intact rat basophilic leukaemia (RBL-2H3) and mouse neuroblastoma (N18TG2) cells through diffusion/hydrolysis/reacylation processes. The hydrolysis of 2-AG was inhibited by typical esterase inhibitors and by more specific blockers of 'fatty acid amide hydrolase' (FAAH), the enzyme catalysing the hydrolysis of the other 'endocannabinoid', anandamide (AEA). No evidence for a facilitated-diffusion process was found. A 2-AG-hydrolysing activity was detected in homogenates from both cell lines, with the highest levels in membrane fractions. It exhibited an optimal pH at 10, and recognized both 2- and 1(3)- isomers of monoarachidonoylglycerol with similar efficiencies. The apparent Km and Vmax values for -3H-2-AG hydrolysis were 91 microM and 29 microM and 2.4 and 1.8 nmol.min-1.mg of protein-1 respectively in N18TG2 and RBL-2H3 cells. [3H]2-AG hydrolysis was inhibited by Cu2+, Zn2+ and p-hydroxymercuribenzoate, and by 2- or 1(3)-monolinoleoyl- and -linolenoyl-glycerols, but not by the oleoyl, palmitoyl and myristoyl congeners. Purified fractions from solubilized membrane proteins catalysed, at pH 9.5, the hydrolysis of 2-AG as well as AEA. Accordingly, AEA as well as FAAH inhibitors, including arachidonoyltrifluoromethyl ketone (ATFMK), blocked [3H]2-AG hydrolysis by N18TG2 and RBL-2H3 membranes, whereas 2-AG inhibited [14C]AEA hydrolysis. FAAH blockade by ATFMK preserved from inactivation the 2-AG synthesized de novo by intact N18TG2 cells stimulated with ionomycin. These data suggest that FAAH may be one of the enzymes deputed to the physiological inactivation of 2-AG, and create intriguing possibilities for the cross-regulation of 2-AG and AEA levels.
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PMID:The novel endogenous cannabinoid 2-arachidonoylglycerol is inactivated by neuronal- and basophil-like cells: connections with anandamide. 951 56

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

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