UNIPROT:P21554 - FACTA Search

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Query: UNIPROT:P21554 (cannabinoid receptor)
3,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human mast cells (HMC-1) take up anandamide (arachidonoyl-ethanolamide, AEA) with a saturable process (K(m)=200+/-20 nM, V(max)=25+/-3 pmol min(-1) mg protein(-1)), enhanced two-fold over control by nitric oxide-donors. Internalized AEA was hydrolyzed by a fatty acid amide hydrolase (FAAH), whose activity became measurable only in the presence of 5-lipoxygenase, but not cyclooxygenase, inhibitors. FAAH (K(m)=5.0+/-0.5 microM, V(max)=160+/-15 pmol min(-1) mg protein(-1)) was competitively inhibited by palmitoylethanolamide. HMC-1 cells did not display a functional cannabinoid receptor on their surface and neither AEA nor palmitoylethanolamide affected tryptase release from these cells.
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PMID:Human mast cells take up and hydrolyze anandamide under the control of 5-lipoxygenase and do not express cannabinoid receptors. 1118 53

Recent studies have shown that the pharmacological tolerance observed after prolonged exposure to synthetic or plant-derived cannabinoids in adult rats is accompanied by down-regulation/desensitization of brain cannabinoid receptors. However, no evidence exists on possible changes in the contents of the endogenous ligands of cannabinoid receptors in the brain of cannabinoid-tolerant rats. The present study was designed to elucidate this possibility by measuring, by means of isotope dilution gas chromatography/mass spectrometry, the contents of both anandamide (arachidonoylethanolamide; AEA) and its biosynthetic precursor, N-arachidonoylphosphatidylethanolamine (NArPE), and 2-arachidonoylglycerol (2-AG) in several brain regions of adult male rats treated daily with delta9-tetrahydrocannabinol (delta9-THC) for a period of 8 days. The areas analyzed included cerebellum, striatum, limbic forebrain, hippocampus, cerebral cortex, and brainstem. The same regions were also analyzed for cannabinoid receptor binding and WIN-55,212-2-stimulated guanylyl-5'-O-(gamma-[35S]thio)-triphosphate ([35S]GTPgammaS) binding to test the development of the well known down-regulation/desensitization phenomenon. Results were as follows: As expected, cannabinoid receptor binding and WIN-55,212-2-stimulated [35S]GTPgammaS binding decreased in most of the brain areas of delta9-THC-tolerant rats. The only region exhibiting no changes in both parameters was the limbic forebrain. This same region exhibited a marked (almost fourfold) increase in the content of AEA after 8 days of delta9-THC treatment. By contrast, the striatum exhibited a decrease in AEA contents, whereas no changes were found in the brainstem, hippocampus, cerebellum, or cerebral cortex. The increase in AEA contents observed in the limbic forebrain was accompanied by a tendency of NArPE levels to decrease, whereas in the striatum, no significant change in NArPE contents was found. The contents of 2-AG were unchanged in brain regions from delta9-THC-tolerant rats, except for the striatum where they dropped significantly. In summary, the present results show that prolonged activation of cannabinoid receptors leads to decreased endocannabinoid contents and signaling in the striatum and to increased AEA formation in the limbic forebrain. The pathophysiological implications of these findings are discussed in view of the proposed roles of endocannabinoids in the control of motor behavior and emotional states.
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PMID:Enhancement of anandamide formation in the limbic forebrain and reduction of endocannabinoid contents in the striatum of delta9-tetrahydrocannabinol-tolerant rats. 1073 21

Anandamide (ANA), a cannabinoid receptor ligand, stimulated platelet aggregation at concentrations similar to those of arachidonic acid (AA). The aggregating effect of ANA was inhibited by aspirin but not by SR-141716, a cannabinoid receptor antagonist. In addition, HU-210, a cannabinoid receptor agonist, failed to induce platelet activation. Radiolabelling experiments showed that exogenous ANA was cleaved by platelets into AA through a phenylmethylsulfonyl fluoride (PMSF)-sensitive pathway. In agreement, PMSF was shown to abolish the aggregating effect of ANA. In conclusion, ANA is able to induce platelet activation via its cleavage by a PMSF-sensitive amidase activity, leading to the release of AA which in turn activates platelets.
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PMID:Activation of rabbit blood platelets by anandamide through its cleavage into arachidonic acid. 1118 53

We employed the CB1 cannabinoid receptor antagonist SR 141716A (3 mg/kg, i.p.) to investigate whether behavioural effects induced in rats by anandamide, an endogenous cannabinoid (20 mg/kg, i.p.), were mediated by the cannabinoid CB1 receptor. Anandamide reduced ambulatory (67%) and non-ambulatory activities (rearing and grooming, 84% and 90% respectively), with a strong cataleptic effect, produced hypothermia (about -1 degree C) and hindlimb splaying, and reduced defecation (79%). It did not significantly increase either the tail-flick or hot-plate latencies. Except for the decreased defecation, these responses were all blocked by SR 141716A. Although only single doses of the agonist and antagonist were used, the findings indicate that these behavioural effects are probably mediated by an interaction with cannabinoid CB1 receptors.
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PMID:SR 141716A, a cannabinoid receptor antagonist, reverses the behavioural effects of anandamide-treated rats. 1078 Feb 47

Anandamide (arachidonoylethanolamide), an endogenous cannabinoid receptor ligand has been suggested to have physiological role in mammalian nervous system. However, little is known about the role of anandamide on neuronal cells. Here, we demonstrate that anandamide causes death of PC-12 cells, showing marked DNA condensation and fragmentation, appearance of cells at sub-G(0)/G(1) and redistribution of phosphatidyl serine, the hallmark features of apoptosis. Anandamide raised intracellular superoxide level and CPP32-like protease activity in PC-12 cells markedly. Furthermore, antioxidant N-acetyl cysteine prevented anandamide-induced superoxide anion formation and cell death, implying that intracellular superoxide is a novel mediator of anandamide-induced apoptosis of PC-12 cells.
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PMID:Anandamide induces apoptosis of PC-12 cells: involvement of superoxide and caspase-3. 1078 1

Anandamide (AEA) has vasodilator activity, which can be terminated by cellular re-uptake and degradation. Here we investigated the presence and regulation of the AEA transporter in human umbelical vein endothelial cells (HUVECs). HUVECs take up AEA by facilitated transport (apparent K(m) = 190 +/- 10 nm and V(max) = 45 +/- 3 pmol. min(-1).mg(-1) protein), which is inhibited by alpha-linolenoyl-vanillyl-amide and N-(4-hydroxyphenyl)-arachidonoylamide, and stimulated up to 2.2-fold by nitric oxide (NO) donors. The NO scavenger hydroxocobalamin abolishes the latter effect, which is instead enhanced by superoxide anions but inhibited by superoxide dismutase and N-acetylcysteine, a precursor of glutathione synthesis. Peroxynitrite (ONOO(-)) causes a 4-fold activation of AEA transport into cells. The HUVEC AEA transporter contributes to the termination of a typical type 1 cannabinoid receptor (CB(1)) -mediated action of AEA, i.e. the inhibition of forskolin-stimulated adenylyl cyclase, because NO/ONOO(-) donors and alpha-linolenoyl-vanillyl-amide/N-(4-hydroxyphenyl)-arachidonoylamide were found to attenuate and enhance, respectively, this effect of AEA. Consistently, activation of CB(1) cannabinoid receptors by either AEA or the cannabinoid HU-210 caused a stimulation of HUVEC inducible NO synthase activity and expression up to 2.9- and 2. 6-fold, respectively. Also these effects are regulated by the AEA transporter. HU-210 enhanced AEA uptake by HUVECs in a fashion sensitive to the NO synthase inhibitor Nomega-nitro-l-arginine methyl ester. These findings suggest a NO-mediated regulatory loop between CB(1) cannabinoid receptors and AEA transporter.
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PMID:Anandamide uptake by human endothelial cells and its regulation by nitric oxide. 1078 62

Endocannabinoids are an emerging class of lipid mediators, which mimic several effects of cannabinoids. Anandamide (arachidonoylethanolamide) is a major endocannabinoid, which has been shown to impair pregnancy and embryo development. The activity of anandamide is controlled by cellular uptake through a specific transporter and intracellular degradation by the enzyme anandamide hydrolase (fatty acid amide hydrolase, FAAH). We characterized FAAH in mouse uterus by radiochromatographic and immunochemical techniques, showing that the enzyme is confined to the epithelium and its activity decreases appreciably during pregnancy or pseudopregnancy because of lower gene expression at the translational level. Ovariectomy prevented the decrease in FAAH, and both progesterone and estrogen further reduced its basal levels, suggesting hormonal control of the enzyme. Anandamide was shown to induce programmed cell death in mouse blastocysts, through a pathway independent of type-1 cannabinoid receptor. Blastocysts, however, have a specific anandamide transporter and FAAH, which scavenge this lipid. Taken together, these results provide evidence of an interplay between endocannabinoids and sex hormones in pregnancy. These findings may also be relevant for human fertility, as epithelial cells from healthy human uterus showed FAAH activity and expression, which in adenocarcinoma cells was increased fivefold.
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PMID:Down-regulation of anandamide hydrolase in mouse uterus by sex hormones. 1080 98

During the past several years, cannabinoid biology has witnessed marked advances that has propelled it to the forefront of biomedical research. These new developments have also provided an opportunity to examine the physiological and biochemical events underlying the use and abuse of cannabis as well as elucidating the biological role of the endogenous cannabinoid ligands (endocannabinoids). The biological targets for endocannabinoids include the cannabinoid receptors (CB1 and CB2), the enzyme anandamide amidohydrolase (AAH), and the carrier protein referred to as the anandamide transporter (ANT). The identification of arachidonylethanolamide (anandamide, AEA) as an endogenous cannabinoid has been an important development in cannabinoid research which has led to the identification of two proteins associated with cannabinoid physiology in addition to the CB1 and CB2 receptors. These proteins are anandamide amidohydrolase (AAH), an enzyme responsible for the hydrolytic breakdown of anandamide and the anandamide transporter (ANT), a carrier protein involved in the transport of anandamide across the cell membrane. Evidence obtained so far suggests that these two proteins, in combination, are responsible for the termination of the biological actions of anandamide. Also, the discovery of anandamide has revealed a novel class of more selective agents possessing somewhat different pharmacological properties than the cannabinoids. A number of such analogs have now been reported many of which possess markedly improved cannabinoid receptor affinities and metabolic stabilities compared to those of the parent ligand. Generally, anandamide and all known analogs exhibit significant selectivities with high affinities for the CB1 receptor and modest to very low affinity for the CB2 receptor. In a relatively short period of time, pharmacological and biochemical studies have confirmed initial speculations that anandamide is either a neuromodulator or neurotransmitter and has significantly advanced our understanding of cannabinoid biochemistry. This summary seeks to define the pharmacology of endocannabinoids and to focus on the structure-activity relationships (SAR) of anandamide for the CB1 cannabinoid receptor.
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PMID:Natural and synthetic endocannabinoids and their structure-activity relationships. 1090 99

The influence of the cannabinoids anandamide, methanandamide and WIN 55212-2 on the delayed rectifier K(+) current (I(K(V))) in rat arterial myocytes was investigated. Anandamide caused a concentration-dependent reduction of total peak and late K(+) current (I(K)). The maximal effect (about 50% inhibition of I(K)) was reached with 3 microM, and half-maximal current block was observed at 0.6 microM. Blockade was voltage-independent. Inhibition of I(K) by the cannabinoid was associated with a characteristic increase in the rate of current relaxation. Methanandamide (10 microM), a metabolically more stable analogue of anandamide, decreased I(K) with a similar time course. Current traces in the presence of the drug also showed an acceleration of inactivation. The presence of TEA did not impair the inhibition by anandamide or methanandamide, but inhibition was prevented by pre-exposure to 4-AP, showing that both cannabinoids inhibited I(K(V)) while having no influence on Ca(2+)-dependent K(+) current (I(K(Ca))). The CB(1) receptor antagonist SR141716A (10 microM) did not influence the action of anandamide or methanandamide. Arachidonic acid (1 microM) increased I(K) considerably. However, in the presence of TEA it caused a decrease of I(K(V)) with a characteristic increase in the rate of current relaxation. WIN 55212-2 (20 microM) caused similar inhibition of I(K). Internally applied anandamide (10 microM) or methanandamide (10 microM) was ineffective at influencing I(K). In the dialyzed cells, the additional external application of a cannabinoid promptly initiated inhibition. The results show that anandamide, methanandamide and WIN 55212-2 affect I(K(V)) in a cannabinoid receptor-independent way similar to that of arachidonic acid, which, unlike the cannabinoids, additionally increases a Ca(2+)-activated K(+) current. It is suggested that cannabinoids might bind to an external site on or near the K(v) channel of the vascular smooth muscle cells.
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PMID:Influence of cannabinoids on the delayed rectifier in freshly dissociated smooth muscle cells of the rat aorta. 1096 73

N-acyl-ethanolamines (NAE) belong to the new class of naturally occurring biologically active regulators. Anandamide--a well known representative of NAEs--is an agonist of central (CB1) and peripheral (CB2) cannabinoid receptors. Adrenal cortex contains the CB2 receptor. The aim of present work is to investigate the influence of saturated and polyunsaturated NAEs on the corticosteroid synthesis in adrenal gland in vitro. It was shown that the rat adrenal gland is the main target of N-([1-14C]palmitoyl)ethanolamine incorporation. Saturated NAE enhanced the incorporation of [3H]-cholesterol into the aldosterone by 25% (p < 0.06) and corticosterone by 17% (p < 0.05) of rat adrenal slices in vitro. Mixture of polyunsaturated NAEs containing mainly 18:1w9, 18:2w6, 18:3w3, 20:1w9, 22:1w9 increased the labeling of aldosterone by 70% (p < 0.05) and corticosterone by 20% (p < 0.05). Thus, the saturated NAEs as well as polyunsaturated analogs, act by the similar manner on the corticosteroid synthesis. The fact that saturated NAEs possess poor affinity to CB receptors provides us opportunity to suggest the non-receptor mechanism of NAEs adrenotrophic action. Further we used the purified bovine serum albumin to test the binding kinetic of N-([I14C]palmitoyl)ethanolamine with its hydrophobic domains. It was found that NAEs have high affinity to hydrophobic domains of protein with K = 2.5 x 10(8) M-1. This finding could support the idea of the existence of putative allosteric modulation of regulatory protein function. It was concluded that NAEs exert a stimulatory effect on the corticosteroid synthesis in rat adrenal gland in vitro and this action do not mediated trough cannabinoid receptor.
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PMID:[N-acylethanolamine--a new class of natural adrenotropic modulators]. 1097 76

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