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)

A concentration-related stimulation of anandamide (arachidonylethanolamide) synthesis by delta 9-tetrahydrocannabinol (THC) was observed in N-18TG2 neuroblastoma cells. Anandamide was detected and measured using an approach in which [3H]arachidonic acid and [14C]ethanolamine were incorporated into the phospholipids of subconfluent monolayers of cells, and the radiolabeled products were analyzed by TLC following agonist exposure. Both precursors showed similar concentration-response relationships and time dependencies consistent with the production of a product containing both the ethanolamine and arachidonyl moieties. The radiolabeled product also migrated together with authentic anandamide on two-dimensional TLC, confirming its identity as arachidonylethanolamide. Approximately two-thirds of the observed synthesis could be inhibited by 1 microM wortmannin, an agent previously reported to inhibit THC-stimulated arachidonic acid release. These findings are in agreement with reports showing that THC can mobilize phospholipid bound arachidonic acid, leading to the production of other eicosanoids.
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PMID:Stimulation of anandamide biosynthesis in N-18TG2 neuroblastoma cells by delta 9-tetrahydrocannabinol (THC). 770 43

Anandamide (arachidonyl ethanolamide) has been identified as an endogenous ligand of cannabinoid receptors on the basis of its ability to displace 3H-labeled synthetic cannabinoid in a binding assay. One well characterized cellular action of cannabinoids is inhibition of hormonally stimulated adenylyl cyclase. Another action of synthetic cannabinoids is potent, stereospecific, and reversible inhibition of N-type calcium currents (ICa) in the NG108-15 neuroblastoma-glioma cell line via a pertussis toxin (PTX)-sensitive pathway, independently of cAMP metabolism. Here we used the N18 neuroblastoma cell line and the whole-cell voltage-clamp technique to show that anandamide also potently inhibits N-type ICa in a PTX-sensitive fashion. As with the cannabinomimetic aminoalkylindole WIN 55,212-2, inhibition by anandamide was voltage dependent and N-ethylmaleimide sensitive. However, anandamide was less efficacious than either WIN 55,212-2 or the nonclassical cannabinoid CP 55,940. Indeed, anandamide appears to act as a partial agonist at the cannabinoid receptor. Application of WIN 55,212-2 always caused further inhibition of ICa in cells exposed to a maximally effective concentration of anandamide, and application of anandamide always caused a partial recovery of ICa in cells exposed to a maximally effective concentration of WIN 55,212-2. This partial agonist property of anandamide suggests that, although anandamide inhibits N-type ICa via a PTX-sensitive G protein, its action as a neuromodulator in the intact animal may be more complex than would be inferred by extrapolating the results of in vivo studies with (-)-delta 9-tetra-hydrocannabinol or synthetic cannabinoids.
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PMID:Anandamide, an endogenous cannabinoid, inhibits calcium currents as a partial agonist in N18 neuroblastoma cells. 837 11

Enzymatic activities have been identified which catalyze both the hydrolysis and synthesis of arachidonylethanolamide (anandamide). Anandamide was taken up by neuroblastoma and glioma cells in culture, but it did not accumulate since it was rapidly degraded by an amidase activity that resided mainly in the membrane fractions. This amidase activity was expressed in brain and the majority of cells and tissues tested. Phenylmethylsulfonyl fluoride (PMSF) was found to be a potent inhibitor of this amidase. A catalytic activity for the biosynthesis of anandamide from ethanolamine and arachidonic acid was readily apparent in incubations of rat brain homogenates. The stability of anandamide in serum and its rapid breakdown in cells and tissues are consistent with the observation that it is active when administered systemically, and its duration of action will be regulated by its rate of degradation in cells.
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PMID:Enzymatic synthesis and degradation of anandamide, a cannabinoid receptor agonist. 837 32

Arachidonylethanolamide (anandamide), a candidate endogenous cannabinoid ligand, has recently been isolated from porcine brain and displayed cannabinoid-like binding activity to synaptosomal membrane preparations and mimicked cannabinoid-induced inhibition of the twitch response in isolated murine vas deferens. In this study, anandamide and several congeners were evaluated as cannabinoid agonists by examining their ability to bind to the cloned cannabinoid receptor, inhibit forskolin-stimulated cAMP accumulation, inhibit N-type calcium channels, and stimulate one or more functional second messenger responses. Synthetic anandamide, and all but one congener, competed for [3H]CP55,940 binding to plasma membranes prepared from L cells expressing the rat cannabinoid receptor. The ability of anandamide to activate receptor-mediated signal transduction was evaluated in Chinese hamster ovary (CHO) cells expressing the human cannabinoid receptor (HCR, termed CHO-HCR cells) and compared to control CHO cells expressing the muscarinic m5 receptor (CHOm5 cells). Anandamide inhibited forskolin-stimulated cAMP accumulation in CHO-HCR cells, but not in CHOm5 cells, and this response was blocked with pertussis toxin. N-type calcium channels were inhibited by anandamide and several active congeners in N18 neuroblastoma cells. Anandamide stimulated arachidonic acid and intracellular calcium release in both CHOm5 and CHO-HCR cells and had no effect on the release of inositol phosphates or phosphatidylethanol, generated after activation of phospholipase C and D, respectively. Anandamide appears to exhibit the essential criteria required to be classified as a cannabinoid/anandamide receptor agonist and shares similar nonreceptor effects on arachidonic acid and intracellular calcium release as other cannabinoid agonists.
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PMID:Anandamide, an endogenous cannabimimetic eicosanoid, binds to the cloned human cannabinoid receptor and stimulates receptor-mediated signal transduction. 839 53

A putative endogenous cannabinoid ligand, arachidonylethanolamide (termed "anandamide"), was isolated recently from porcine brain. Here we demonstrate that this compound is a specific cannabinoid agonist and exerts its action directly via the cannabinoid receptors. Anandamide specifically binds to membranes from cells transiently (COS) or stably (Chinese hamster ovary) transfected with an expression plasmid carrying the cannabinoid receptor DNA but not to membranes from control nontransfected cells. Moreover, anandamide inhibited the forskolin-stimulated adenylate cyclase in the transfected cells and in cells that naturally express cannabinoid receptors (N18TG2 neuroblastoma) but not in control nontransfected cells. As with exogenous cannabinoids, the inhibition by anandamide of the forskolin-stimulated adenylate cyclase was blocked by treatment with pertussis toxin. These data indicate that anandamide is an endogenous agonist that may serve as a genuine neurotransmitter for the cannabinoid receptor.
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PMID:Anandamide, a brain endogenous compound, interacts specifically with cannabinoid receptors and inhibits adenylate cyclase. 851 84

Anandamide (arachidonoylethanolamide, AnNH) has been recently proposed as the endogenous ligand at the brain cannabinoid receptor CB1. Two alternative pathways have been suggested for the biosynthesis of this putative mediator in the central nervous system. Here we present data (1) substantiating further the mechanism by which AnNH is produced by phospholipase D (PLD)-catalysed hydrolysis of N-arachidonoylphosphatidylethanolamine in mouse neuroblastoma N18TG2 cells, and (2) suggesting for the first time that AnNH is biosynthesized via the same mechanism in a non-neuronal cell line, mouse J774 macrophages, together with other acylethanolamides and is possibly involved in the control of the immune/inflammatory response. Lipids from both neuroblastoma cells and J774 macrophages were shown to contain a family of N-acylphosphatidylethanolamines (N-aPEs), including the possible precursor of AnNH, N-arachidonoyl-PE. Treatment with exogenous PLD, but not with exogenous phospholipase A2 and ethanolamine, resulted in the production of a series of acylethanolamides (AEs), including AnNH, from both cell types. The formation of AEs was accompanied by a decrease in the levels of the corresponding N-aPEs. Enzymically active homogenates from either neuroblastoma cells or J774 macrophages were shown to convert synthetic N-[3H]arachidonoyl-PE into [3H]AnNH, thus suggesting that in both cells an enzyme is present which is capable of catalysing the hydrolysis of N-aPE(s) to the corresponding AE(s). Finally, as previously shown in central neurons, on stimulation with ionomycin, J774 macrophages also produced a mixture of AEs including AnNH and palmitoylethanolamide, which has been proposed as the preferential endogenous ligand at the peripheral cannabinoid receptor CB2 and, consequently, as a possible down-modulator of mast cells. On the basis of this as well as previous findings it is now possible to hypothesize for AnNH and palmitoylethanolamide, co-synthesized by macrophages, a role as peripheral mediators with multiple actions on blood cell function.
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PMID:Biosynthesis of anandamide and related acylethanolamides in mouse J774 macrophages and N18 neuroblastoma cells. 867 Jan 78

Anandamide (arachidonoyl-ethanolamide, AnNH) and 2-arachidonoyl-glycerol (2-AG) have been suggested to act as endogenous agonists at the brain cannabinoid receptor, and their biosynthetic and degradative mechanisms in nervous tissues and cells have also been partially elucidated. Here we present evidence for the presence, in mouse N18TG2 neuroblastoma cells, of enzymatic activities potentially responsible for the biosynthesis of AnNH and 2-AG from a common phospholipid precursor. Cell homogenates were shown to catalyze: (a) the transfer of an arachidonoyl moiety from the sn-1 position of sn-1,2-di-arachidonoyl-phosphatidylcholine (AAPC) to phosphatidyl-ethanolamine (PE) to form N-arachidonoyl-PE (N-ArPE) and sn-1-lyso-2-arachidonoyl-PC (lyso-APC), (b) the hydrolysis of N-AtPE to AnNH, (c) the hydrolysis of lyso-APC to 2-AG, (d) the hydrolysis of AAPC to sn-1,2-di-arachidonoyl-glycerol (AAG), and (e) the hydrolysis of AAG to 2-AG. From these findings it is possible to suggest that AAPC may serve as precursor for both AnNH and 2-AG biosynthesis through three different pathways.
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PMID:Potential biosynthetic connections between the two cannabimimetic eicosanoids, anandamide and 2-arachidonoyl-glycerol, in mouse neuroblastoma cells. 885 37

Anandamide amidase (EC 3.5.1.4) is responsible for the hydrolysis of arachidonoyl ethanolamide (anandamide). Relatively selective and potent enzyme reversible inhibitors effective in the low micromolar range, such as arachidonyl trifluoromethyl ketone (Arach-CF3), have been described (Koutek et al., J Biol Chem 269: 22937-22940, 1994). In the current study, methyl arachidonyl fluorophosphonate (MAFP), an arachidonyl binding site directed phosphonylation reagent, was tested as an inhibitor of anandamide amidase and as a ligand for the CB1 cannabinoid receptor. MAFP was 800 times more potent than Arach-CF3 and phenylmethylsulfonyl fluoride (PMSF) as an amidase inhibitor in rat brain homogenates. In intact neuroblastoma cells, MAFP was also approximately 1000-fold more potent than Arach-CF3. MAFP demonstrated selectivity towards anandamide amidase for which it was approximately 3000 and 30,000-fold more potent than it was towards chymotrypsin and trypsin, respectively. MAFP displaced [3H]CP-55940 binding to the CB1 cannabinoid receptor with an IC50 of 20 nM vs 40 nM for anandamide. It bound irreversibly and prevented subsequent binding of the cannabinoid radioligand [3H]CP-55940 at that locus. These studies suggest that MAFP is a potent and specific inhibitor of anandamide amidase and, in addition, can interact with the cannabinoid receptors at the cannabinoid binding site. This is the first report of a potent and relatively selective irreversible inhibitor of arachidonoyl ethanolamide amidase.
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PMID:Methyl arachidonyl fluorophosphonate: a potent irreversible inhibitor of anandamide amidase. 906 28

Anandamide amidase is the hydrolytic enzyme responsible for the breakdown of anandamide, an endogenous cannabimimetic, to arachidonate and ethanolamine. Another enzymatic activity called anandamide synthase catalyzes the reverse reaction, that is the condensation of arachidonate and ethanolamine. Using a recently cloned rat fatty acid amidohydrolase (FAAH), we tested the hypothesis that the synthase and the amidase activities are catalyzed by the same enzyme. Untransfected and vector transfected (pcDNA3) COS-7 cells did not express detectable levels of either the amidase or synthase. However, when COS-7 cells were transiently transfected with a rat FAAH pcDNA3 construct, both amidase and synthase were concomitantly expressed. These results indicate that the enzymatic formation of anandamide from arachidonic acid and ethanolamine can be mediated by anandamide amidase acting in the reverse direction. The FAAH transfected cells expressed higher levels of enzyme than either rat brain homogenates or neuroblastoma cells in culture. Furthermore, the reaction rate for the amidase in FAAH transfected COS-7 cells, neuroblastoma cells and brain homogenate was always greater than the synthase reaction. These studies raise the question if this synthase reaction serves any physiological role, especially in view of the evidence that anandamide can be formed by a different pathway.
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PMID:The cloned rat hydrolytic enzyme responsible for the breakdown of anandamide also catalyzes its formation via the condensation of arachidonic acid and ethanolamine. 934 46

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

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