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

The psychoactive properties of Cannabis sativa and its major biologically active constituent, delta 9-tetrahydrocannabinol, have been known for years. The recent identification and cloning of a specific cannabinoid receptor suggest that cannabinoids mimic endogenous compounds affecting neural signals for mood, memory, movement, and pain. Using whole-cell voltage clamp and the cannabinomimetic aminoalkylindole WIN 55,212-2, we have found that cannabinoid receptor activation reduces the amplitude of voltage-gated calcium currents in the neuroblastoma-glioma cell line NG108-15. The inhibition is potent, being half-maximal at less than 10 nM, and reversible. The inactive enantiomer, WIN 55,212-3, does not reduce calcium currents even at 1 microM. Of the several types of calcium currents in NG108-15 cells, cannabinoids predominantly inhibit an omega-conotoxin-sensitive, high-voltage-activated calcium current. Inhibition was blocked by incubation with pertussis toxin but was not altered by prior treatment with hydrolysis-resistant cAMP analogues together with a phosphodiesterase inhibitor, suggesting that the transduction pathway between the cannabinoid receptor and calcium channel involves a pertussis toxin-sensitive GTP-binding protein and is independent of cAMP metabolism. However, the development of inhibition is considerably slower than a pharmacologically similar pathway used by an alpha 2-adrenergic receptor in these cells. Our results suggest that inhibition of N-type calcium channels, which could decrease excitability and neurotransmitter release, may underlie some of the psychoactive effects of cannabinoids.
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PMID:Cannabinoids inhibit N-type calcium channels in neuroblastoma-glioma cells. 131 42

The cannabinoid receptor that has been pharmacologically characterized for hypothermia, spontaneous activity, analgesia and catalepsy in rodents is the same pharmacological receptor that inhibits adenylate cyclase in vitro. The inhibition of adenylate cyclase by the cannabinoid receptor results from an interaction with Gi, based on the biochemical kinetic properties of the response, the sensitivity to pertussis toxin ADP-ribosylation, and the thermodynamic characteristics of the response. From precedents based on studies of the well-characterized G protein coupled receptors, rhodopsin and the beta-adrenergic receptor, we can predict the tertiary structure of the cannabinoid receptor. Three sites of potential glycosylation are present on the receptor. However, treatment of N18TG2 neuroblastoma cells with tunicamycin to prevent glycosylation of newly synthesized receptors failed to alter cannabinoid-induced inhibition of cyclic AMP accumulation. The cannabinoid response was rapidly desensitized (within 1/2 h). Treatment of cells with tunicamycin failed to alter agonist-induced desensitization processes. These findings can be more veraciously interpreted as we gain a better understanding of the cellular dynamics of the cannabinoid receptor.
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PMID:The cannabinoid receptor: biochemical and cellular properties in neuroblastoma cells. 180 46

delta 9-tetrahydrocannabinol, the major psychoactive cannabinoid of marijuana modulates immune cells in vivo and in vitro. It is possible that the drug exerts it's effect either by inserting into and disrupting the cell membrane (nonreceptor mechanism) or by binding to a cannabinoid receptor moiety and thus altering cell function through some form of signal transduction. In the present study, we confirm and extend the findings that mouse and human immune cells express specific cannabinoid binding sites and cannabinoid receptor mRNA. Reverse transcription-polymerase chain reaction analysis showed the presence of receptor mRNA not only in the neuroblastoma cell line (N18TG-2), but also in mouse splenocytes and in cell lines such as NKB61A2 (a mouse natural killer-like), CTLL2 (a mouse IL2-dependent T cell), THP-1 (a human monocytic cell) and Raji (a human B cell) but not in Jurkat (a human T cell). Furthermore, the receptor mRNA was expressed in purified populations of resting splenic T and B lymphocytes but not in resting populations of enriched splenic macrophages. Finally, LPS-stimulated Raji and PMA-stimulated THP-1 human cell lines showed increased levels of the cannabinoid receptor mRNA. These results suggest cannabinoid receptors have biological relevance in lymphoid cells because: receptor mRNA is detected in some resting immune cells but not others and the mRNA increases during cell activation. The major psychoactive component of marijuana, delta9-tetrahydrocannabinol (THC), has been shown to modulate human and mouse immune responses both in vitro and in vivo (1,2).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of cannabinoid receptor mRNA in murine and human leukocytes. 754 49

It has been shown previously that the endogenous cannabinoid receptor ligand arachidonylethanolamide (anandamide 20:4, n-6) induces in vivo and in vivo effects typical of a cannabinoid partial agonist. We now report that the synthetic docosahexaenylethanolamide (anandamide 22:6, n-3) shows similar activities. In addition we show that these two anandamides, under certain experimental conditions, antagonize the effects of delta 9-THC both in vivo and in vitro. Thus a significant decrease in the potency of delta 9-THC-induced inhibition of adenylate cyclase was observed in N18TG2 neuroblastoma cells that were pretreated with low concentrations of anandamides. At these low concentrations of anandamides had no effect when applied alone. In vivo, Sabra or ICR mice were subjected to a tetrad of tests, designed to detect cannabinoid-induced effects. Mice pretreated (i.p.) with 10 mg/kg of delta 9-THC received injections with anandamides. Only low doses (0.0001-0.1 mg/kg) of the anandamides, which had no effects when administered alone, partially or fully inhibited the THC-induced effects. These findings suggest that the inhibition of delta 9-THC-induced effects by low doses of anandamides may be due to partial agonistic effects of these materials. It is possible that low doses of the anandamides are capable of activating a Gs protein mediated signaling pathway, or may cause an allosteric modulation of the cannabinoid receptor.
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PMID:Low doses of anandamides inhibit pharmacological effects of delta 9-tetrahydrocannabinol. 785 84

Arachidonoyl ethanolamide (anandamide) is a naturally occurring brain constituent that binds to a specific brain cannabinoid receptor (CBR1). An amidase activity (anandamide amidase) in membrane fractions of brain and in cultured neuroblastoma cells rapidly degrades anandamide to arachidonic acid (Deutsch, D. G., and Chin, S. (1993) Biochem. Pharmacol. 46, 791-796). In the current study, analogs of anandamide representing three classes of putative transition-state inhibitor (trifluoromethyl ketones, alpha-keto esters, and alpha-keto amides) were synthesized and tested as inhibitors of anandamide hydrolysis in vitro and as ligands for CBR1. The trifluoromethyl ketones and alpha-keto esters showed nearly 100% inhibition of anandamide hydrolysis in vitro at 7.5 microM inhibitor and 27.7 microM anandamide. Arachidonyl trifluoromethyl ketone was the only synthetic compound in the series of fatty acid derivatives able to displace [3H]CP-55940 binding to CBR1 with a Ki of 0.65 microM. It was also the most effective inhibitor in intact neuroblastoma cells, leading to a 12-fold increase of cellular anandamide levels at 12 microM. From the action of these inhibitors on this hydrolytic enzyme, it seems likely that anandamide is cleaved by a mechanism that involves an active-site serine hydroxyl group. These inhibitors may serve as useful tools to elucidate the role anandamide plays in vivo.
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PMID:Inhibitors of arachidonoyl ethanolamide hydrolysis. 808 91

As previously reported by this laboratory, an endogenous factor capable of inhibiting the specific binding of the radiolabeled cannabinoid agonist [3H]CP-55940 to its receptor can be released from nerve terminals in response to an influx of Ca++ induced by an ionophore (Evans et al., 1992). In the present report, we provide evidence that the endogenous ligand for the cannabinoid receptor can be released in response to a depolarizing stimulus (75 mM K+) in the presence of extracellular Ca++. K(+)-evoked release was not observed in the absence of extra-cellular Ca++ and was reduced by the specific calcium channel blockers verapamil and omega-conotoxin. The efflux of cannabinoid receptor binding activity is greatest within 2 min of stimulation with the Ca++ ionophore A23187. Within this period of time, the cannabinoid receptor binding activity was enhanced by the presence of a cocktail of peptidase inhibitors. Examination of the contribution of individual inhibitors for enhancing high K(+)-released material revealed a selectivity for captopril and thiorphan. The specificity of the released factor for the cannabinoid receptor was corroborated by its ability to compete with the aminoalkylindole radioligand [3H]WIN-55212 for binding to this receptor. Fractions from a semi-purified sample of the effluent demonstrated binding to the cannabinoid receptor and behaved as agonists in that these fractions could inhibit adenylate cyclase activity in neuroblastoma membrane preparations.
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PMID:Endogenous cannabinoid receptor binding activity released from rat brain slices by depolarization. 813 40

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

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


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