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

Cannabinoids, known for their psychoactive effects, also possess immunomodulatory properties. The recent isolation and cloning of the G-protein-coupled peripheral cannabinoid receptor (CB2), mainly expressed in immune tissues, have provided molecular tools to determine how cannabinoid compounds may mediate immunomodulation. We here investigated the CB2 signaling properties using stably transfected Chinese hamster ovary cells expressing human CB2. First, we showed that stimulation by a cannabinoid agonist activated mitogen-activated protein (MAP) kinase in time- and dose-dependent manners. The rank order of potency for MAP kinase activation of cannabinoid agonists correlated well with their binding capacities. Second, we demonstrated that, following MAP kinase activation, cannabinoids induced the expression of the growth-related gene Krox-24, also known as NGFI-A, zif/268, and egr-1. Pertussis toxin completely prevented both MAP kinase activation and Krox-24 induction, even more these responses appeared to be dependent of specific protein kinase C isoforms and independent of inhibition of adenylyl cyclase. A similar coupling of CB2 to a mitogenic pathway and to the regulation of Krox-24 expression was also observed in human promyelocytic cells HL60. Taken together, these findings provide evidence for a functional role of the CB2 receptor in gene induction mediated by the MAP kinase network.
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PMID:Signaling pathway associated with stimulation of CB2 peripheral cannabinoid receptor. Involvement of both mitogen-activated protein kinase and induction of Krox-24 expression. 864 16

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

We have cloned the peripheral cannabinoid receptor, mCB2, from a mouse splenocyte cDNA library. The 3.7 kb sequence contains an open reading frame encoding a protein of 347 residues sharing 82% overall identity with the only other known peripheral receptor, human CB2 (hCB2) and shorter than hCB2 by 13 amino acids at the carboxyl terminus. Binding experiments with membranes from COS-3 cells transiently expressing mCB2 showed that the synthetic cannabinoid WIN 55212-2 had a 6-fold lower affinity for mCB2 than for hCB2, whereas both receptors showed similar affinities for the agonists CP 55,940, delta(9)-THC and anandamide and almost no affinity for the central receptor- (CB1) specific antagonist SR 141716A. Both hCB2 and mCB2 mediate agonist-stimulated inhibition of forskolin-induced cAMP production in CHO cell lines permanently expressing the receptors. SR 141716A failed to antagonize this activity in either cell line, confirming its specificity for CB1.
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PMID:Molecular cloning, expression and function of the murine CB2 peripheral cannabinoid receptor. 867 94

delta 9-Tetrahydrocannabinol (delta 9-THC) a prototypic compound belonging to the family of agents known as cannabinoids, produces a wide variety of biological effects, including inhibition of immune function. The putative mechanism for cannabinoid biological action involves binding to cannabinoid receptor types 1 and 2 (CB1 and CB2) to negatively regulate adenylate cyclase and inhibit intracellular signaling via the cAMP cascade. In the current study, we show that delta 9-THC produces a marked inhibition of inducible nitric oxide synthase (iNOS) transcription and nitric oxide production by the macrophage line RAW 264.7 in response to lipopolysaccharide (LPS). Analysis of RAW 264.7 cell RNA demonstrated transcripts for CB2 but not CB1. Treatment of RAW 264.7 with delta 9-THC inhibited forskolin-stimulated cAMP production in a dose-related manner, verifying the expression of functional cannabinoid receptors by this cell line. iNOS transcription, which is regulated in part by the nuclear factor-kappa B/Rel (NF-kappa B/Rel) family of transcription factors, has been shown to be under the control of the cAMP signaling cascade. We demonstrate that delta 9-THC inhibits the activation and binding of NF-kappa B/Rel proteins to their cognate DNA site, kappa B, in response to LPS stimulation. LPS treatment of RAW 264.7 cells also induced the activation of the cAMP cascade, as indicated by an increase in binding of nuclear factors to the cAMP response element. Activation of CRE binding proteins was inhibited by delta 9-THC. Forskolin treatment of RAW 264.7 cells induced both kappa B and cAMP response element binding activity and was likewise inhibited by delta 9-THC. Collectively, this series of experiments indicates that NF-kappa B/Rel is positively regulated by the cAMP cascade to help initiate iNOS gene expression in response to LPS stimulation of macrophages. This activation of iNOS is attenuated by delta 9-THC through the inhibition of cAMP signaling.
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PMID:Attenuation of inducible nitric oxide synthase gene expression by delta 9-tetrahydrocannabinol is mediated through the inhibition of nuclear factor- kappa B/Rel activation. 870 Jan 41

Studies using agonists from at least three major cannabinoid ligand groups suggest the mediation of several distinct effects (e.g. psychotropic, analgesia, and antiemetic) by the recently cloned CB1 cannabinoid receptor. However, other studies suggest the presence of multiple cannabinoid receptors and at least one other receptor (CB2) has been cloned. The present investigation was undertaken to determine whether one of the potential therapeutic actions of cannabinoids (i.e. antinociception) is mediated by the CB1 receptor using the antisense oligodeoxynucleotide 'knock-down' approach. Synthetic oligodeoxynucleotides complementary to the 5' end of the coding region of the mouse CB1 receptor mRNA were administered to mice by the intracerebro-ventricular (i.c.v.) route twice daily for 3 days. Mismatch oligodeoxynucleotides of similar sequence, but containing six mismatched positions out of the 18 nucleotides within the oligodeoxynucleotide were administered to other mice. Treatment with antisense oligodeoxynucleotides, but not mismatched oligodeoxynucleotides, greatly inhibited the antinociceptive response of the cannabinoid agonist CP-55,940. Untreated mice and those treated with mismatched oligodeoxynucleotides showed similar, full response antinociception after CP-55,940 administration. The data provides strong evidence that the CB1 receptor-ligand interaction is essential for the antinociceptive effect.
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PMID:Antisense oligodeoxynucleotide treatment to the brain cannabinoid receptor inhibits antinociception. 873 Aug 37

Anandamide (arachidonylethanolamide) is a novel lipid neurotransmitter first isolated from porcine brain which has been shown to be a functional agonist for the cannabinoid CB1 and CB2 receptors. Anandamide has never been isolated from human brain or peripheral tissues and its role in human physiology has not been examined. Anandamide was measured by LC/MS/MS and was found in human and rat hippocampus (and human parahippocampal cortex), striatum, and cerebellum, brain areas known to express high levels of CB1 cannabinoid receptors. Significant levels of anandamide were also found in the thalamus which expresses low levels of CB1 receptors. Anandamide was also found in human and rat spleen which expresses high levels of the CB2 cannabinoid receptor. Small amounts of anandamide were also detected in human heart and rat skin. Only trace quantities were detected in pooled human serum, plasma, and CSF. The distribution of anandamide in human brain and spleen supports its potential role as an endogenous agonist in central and peripheral tissues. The low levels found in serum, plasma, and CSF suggest that it is metabolized in tissues where it is synthesized, and that its action is probably not hormonal in nature.
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PMID:Isolation and measurement of the endogenous cannabinoid receptor agonist, anandamide, in brain and peripheral tissues of human and rat. 881 96

Two cannabinoid receptors have been identified to date; one is located predominantly in the central nervous system (CB1), whereas the other is located exclusively in the periphery (CB2). The purposes of this study were to explore further the binding requirements of the CB2 receptor and to search for compounds displaying distinct affinities for either cannabinoid receptor. The binding affinities of a series of cannabinoids tested previously at the CB1 receptor were determined at cloned human CB1 and CB2 receptors using a filtration assay. In addition, possible allosteric regulation of the CB2 receptor was examined. Sodium and a GTP analog elicited a concentration-dependent decrease in specific binding to the CB2 receptor. The affinity of cannabinol for CB2 receptors (Ki = 96.3 +/- 14 nM) was confirmed to be in approximately the same range as that of delta 9-THC (Ki = 36.4 +/- 10 nM). Affinities at cloned CB1 and CB2 receptors were compared with affinities determined in the brain. Although most of the chosen compounds did not discriminate between CB1 and CB2, several ligands were identified that showed selectivity. Affinity ratios demonstrated that two 2'-fluoro analogs of anandamide were over 23-fold selective for the CB1 receptor and confirmed the CB1 selectivity of SR141716A {N- (piperidin-1-yl)-5-(4-chlorophenyl)-1-(2, 4-dichlorophenyl)-4- methyl-1H-pyrazole-3-carboxamidehydrochloride}. In addition, WIN-55, 212-2 {(R)-(+)-[2, 3-dihydro-5-methyl-3-[(4-morpholinyl) methyl] pyrrolo[1,2,3-de]-1,4-benzoxazin-6-yl](1-naphthalenyl) methanone} and a closely related propyl indole analog were shown to be 6.75- and 27.5- fold selective, respectively, for the CB2 receptor. These ligands can now serve as a basis for the design of compounds with even greater selectivity.
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PMID:Evaluation of binding in a transfected cell line expressing a peripheral cannabinoid receptor (CB2): identification of cannabinoid receptor subtype selective ligands. 881 77

The cannabinoid receptors expressed in the mouse neuroblastoma X rat glioma NG108-15 cell and the rat pituitary tumor GH4C1 cell were determined by polymerase chain reaction, dideoxysequencing and pharmacologically. The CB1 but not the CB2 or CB1A cannabinoid receptor was found in both cell lines. The cDNA identified in GH4C1 cells corresponds to the rat CB1 receptor. Interestingly, NG108-15 cells express two distinct cDNAs, one corresponds to the rat and the other to the mouse CB1 receptor. The newly developed CB1 receptor selective antagonist SR141716A was found to reverse cannabinoid agonist (WIN55212-2 or CP55940)-induced adenylyl cyclase inhibition. These results provide more direct evidence that the CB1 receptor is mediating the pharmacological actions of cannabinoids in NG108-15 and GH4C1 cells.
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PMID:Determination of the cannabinoid receptors in mouse x rat hybridoma NG108-15 cells and rat GH4C1 cells. 883 54

Marijuana is currently the most widely abused street drug. However, the functional significance of the cannabinoid receptor system in health and disease includes the use of cannabinoids as analgesics, antiemetics in cancer patients, anticonvulsants for epilepsy, and as antiglaucoma agents as well as immunomodulatory agents. Our knowledge of the mechanisms of action of cannabinoids has increased greatly in the past several years. Two cannabinoid receptors have been identified to date: one is located predominantly in the central nervous system (CBI), whereas the other is expressed in peripheral tissues (CB2). Both are members of the G-protein-coupled receptor family and couple to inhibition of adenylyl cyclase (as well as additional second messenger systems), in transfected cells expressing these receptors, and in the nervous system. An endogenous ligand has been isolated for the CBI receptor; it is arachidonic acid ethanolamide, or anandamide. Candidate endogenous ligands for the CB2 receptor have also been described. Another development is the discovery of a selective antagonist for the CBI receptor. The distribution of the cannabinoid receptor subtypes has been mapped by receptor autoradiography, RT-PCR and in situ hybridization. These new research tools will aid in the elucidation of the physiological role of the endogenous cannabinoid system.
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PMID:Molecular neurobiology of the cannabinoid receptor. 889 48

Arachidonic acid ethanolamide (anandamide) is a brain constituent that binds to the brain cannabinoid receptor (CB1). It produces many of the pharmacological effects caused by delta 9-tetrahydrocannabinol (delta 9-THC) in mice. Anandamide parallels delta 9-THC in its specific interaction with the cannabinoid receptor and in inhibition of adenylate cyclase. Two additional fatty acid ethanolamides that bind to the cannabinoid receptor, homo-gamma-linolenylethanolamide and docostetraenylethanolamide, have been identified in the brain. We believe that the anandamides are involved in the coordination of movement and short term memory. Depression of ambulation in an open field and the analgetic response to anandamide are not fully developed until adulthood, possibly due to an age-related increase in the CB1 receptor concentration. This observation has clinical implications in pediatrics. A second cannabinoid receptor (CB2) is present in the spleen. A monoglyceride, 2-arachidonyl-glycerol which binds to both CB1 and CB2 in transfected cells and inhibits andenylate cyclase in spleen cells was found in the gut. Its role is apparently associated with the immune system. These fatty acids amides and esters represent a new family of chemical modulators in the body.
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PMID:Endogenous cannabinoid ligands--chemical and biological studies. 890 44


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