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)

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

Our results provide further evidence for the hypothesis that the mouse vas deferens contains cannabinoid CB1 receptors. Thus we found that in the presence of forskolin, the cannabinoid receptor agonist, CP 55,940 ((-)-3-[2-hydroxy-4-(1,1-dimethyl-heptyl)phenyl]-4-(3- hydroxypropyl)cyclohexan-1-ol) produced a concentration related inhibition of cyclic AMP production by the vas deferens (EC50 = 6.0 nM). At 100 nM, SR141716A (N-(piperidin-1-yl)-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-me thyl-1H- pyrazole-3-carboxamide hydrochloride) attenuated this effect of CP 55,940, producing a parallel rightward shift in its log concentration-response curve (Kd = 4.3 nM). We also found that cyclic AMP production was inhibited by (-)-11-hydroxy-1',1'-dimethylheptyl-delta 8- tetrahydrocannabinol but not by the (+) enantiomer.
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PMID:Further evidence for the presence of cannabinoid CB1 receptors in mouse vas deferens. 883 53

1. CP 55,244, (-)-11-hydroxy-dimethylheptyl-delta 8-tetrahydrocannabinol, WIN 55,212-2, delta 9-tetrahydrocannabinol, nabilone and anandamide each inhibited electrically-evoked contractions of the mouse isolated urinary bladder in a concentration-related manner, their EC50 values being respectively 15.9, 18.27, 27.23, 1327.6, 1341.5 and 4950.3 nM. (+)-11-hydroxy-dimethylheptyl-delta 8-tetrahydrocannabinol was inactive at the highest concentration used (10 microM). 2. SR141716A (31.62 or 100 nM) produced parallel rightward shifts in the log concentration-response curves of CP 55,244, (-)-11-hydroxy-dimethylheptyl-delta 8-tetrahydrocannabinol, WIN 55,212-2, delta 9-tetrahydrocannabinol and anandamide for inhibition of electrically-evoked bladder contractions. The effect of the antagonist on the log concentration-response curve of CP 55,244 was shown to depend on the concentration of SR141716A used (31.62 to 1000 nM). 3. The amplitudes of contractions evoked by acetylcholine or beta, gamma-methylene-L-ATP were not decreased by 316.2 nM CP 55,244 or 3162 nM delta 9-tetrahydrocannabinol. Electrically-evoked contractions were almost completely abolished by 200 nM tetrodotoxin. 4. The above results support the hypothesis that mouse urinary bladder contains prejunctional CB1 cannabinoid receptors which can mediate inhibition of electrically-evoked contractions, probably by reducing contractile transmitter release. 5. AM 630 which behaves as a cannabinoid receptor antagonist in the mouse isolated vas deferens did not antagonize the ability of CP 55,244 or delta 9-tetrahydrocannabinol to inhibit electrically-evoked contractions of the mouse bladder. 6. SR141716A produced small but significant increases in the amplitude of electrically-evoked contractions of the bladder suggesting that this tissue may release an endogenous cannabinoid receptor agonist or that some cannabinoid receptors in this tissue are precoupled to the effector system.
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PMID:Evidence for the presence of cannabinoid CB1 receptors in mouse urinary bladder. 886 42

1. CP 50,556, CP 55,940, nabilone, CP 56,667, delta 9 -tetrahydrocannabinol (THC) and cannabinol each inhibited electrically-evoked contractions of the myenteric plexus-longitudinal muscle preparation of guinea-pig small intestine in a concentration-related manner. The IC50 values of these cannabinoids, respectively 3.45, 3.46, 30.61, 162.94, 214.63, and 3913.5 nM, correlate well with previously obtained potency values for displacement of [3H]-CP 55,940 from cannabinoid binding sites. 2. Electrically-evoked contractions of the myenteric plexus-longitudinal muscle preparation were also inhibited by AM 630 (6-iodo-pravadoline) and by WIN 55,212-2 (IC50 = 1923.0 and 5.54 nM, respectively). The present finding that AM 630 is an agonist, contrasts with a previous observation that it behaves as a cannabinoid receptor antagonist in the mouse isolated vas deferens. 3. SR141716A produced dose-related parallel rightward shifts in the log concentration-response curves of CP 55,940, WIN 55,212-2, THC and AM 630 for inhibition of electrically-evoked contractions of the myenteric plexus-longitudinal muscle preparation. SR141716A (1 microM) did not reverse the inhibitory effects of normorphine and clonidine on electrically-evoked contractions or potentiate the contractile response to acetylcholine. 4. Doses of naloxone and yohimbine that reversed the inhibitory effects of normorphine or clonidine on electrically-evoked contractions of the myenteric plexus-longitudinal muscle preparation did not affect the inhibitory response to WIN 55,212-2. 5. Electrically-evoked release of acetylcholine from strips of myenteric plexus-longitudinal muscle was decreased by 200 nM CP 55,940 and this inhibitory effect was almost completely reversed by 1 microM SR141716A. Acetylcholine-induced contractions were not affected by 200 nM CP 55,940. 6. These results support the hypothesis that guinea-pig small intestine contains prejunctional cannabinoid CB1 receptors through which cannabinoids act to inhibit electrically-evoked contractions by reducing release of the contractile transmitter, acetylcholine. 7. THC was found to be more susceptible to antagonism by SR141716A than CP 55,940 or AM 630, raising the possibility that guinea-pig small intestine contains more than one type of cannabinoid receptor. 8. At concentrations of 10 nM and above, SR141716A produced small but significant increases in the amplitude of electrically-evoked contractions of the myenteric plexus-longitudinal muscle preparation suggesting that this tissue may release an endogenous cannabinoid receptor agonist or that some cannabinoid receptors in this tissue are precoupled and that SR141716A can reduce the number of receptors in this state.
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PMID:Further evidence for the presence of cannabinoid CB1 receptors in guinea-pig small intestine. 886 62

Previous studies of the structure-activity relationships (SAR) for binding of a series of AC-bicyclic cannabinoid structures to the cannabinoid receptors in rat brain (believed to comprise the CB1 subtype) demonstrated the importance of the A-ring aryl C-3 side chain and phenolic hydroxyl substituents, and elucidated the importance of a C-ring hydroxyalkyl substituent [Melvin et al. Mol. Pharmacol. 44, 1008-1015 (1993)]. The present investigation examines the SAR surrounding this region (D-ring) of the molecule that is not present in the structure of delta(9)-THC and other classical cannabinoid compounds. Both rigid fused ring benzo and cyclohexyl derivatives (creating the D-ring) retained binding affinity for the cannabinoid receptor. Extension of ketone or hydroxyl substituents from the C2 position of the D-ring resulted in a 3-fold increase in binding affinity over the unsubstituted structure. However, the fused ring structure is not critical for the interaction with the receptor in as much as opening the ring did not decrease the potency. Extension of the D-ring C-2 alcohol by one carbon in length resulted in a pair of structures, for which the greatest affinity for the CB1 receptor occurred for the hydroxymethyl group in the axial conformation [(+/-)-CP-55,244]. Upon resolution, the latter provided a pair of enantiomers: (-)-CP-55,244 was approximately 3-fold more potent than the racemic mixtures, and (+)-CP-55,244 failed to bind to the CB1 receptor with an IC50 below 1 mM. Opening of the D-ring of these structures resulted in a loss of binding affinity. This study demonstrates that the potency could be optimized in (-)-CP-55,244 for both binding to the CB1 receptor and the biological activity of analgesia. In addition, the rigid positioning of the hydroxypropyl moiety of CP-55,940 enforced by the decalin ring structure of CP-55,244 increased the enantioselectivity by greater than 100-fold. These data define the critical stereochemistry for a region of the nonclassical ACD-tricyclic cannabinoid structure that contributes a potential hydrogen bonding component to the ligand-receptor interaction mechanism. Inasmuch as this region of the molecule is not present on classical ABC-tricyclic cannabinoid compounds, these studies elucidate a unique agonist recognition site on the CB1 receptor.
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PMID:Structure-activity relationships defining the ACD-tricyclic cannabinoids: cannabinoid receptor binding and analgesic activity. 887 58

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

This study was undertaken to characterize further the central cannabinoid receptors in rat primary neuronal cell cultures from selected brain structures. By using [3H]SR 141716A, the specific CB1 receptor antagonist, we demonstrate in cortical neurons the presence of a high density of specific binding sites (Bmax = 139 +/- 9 fmol/mg of protein) displaying a high affinity (KD = 0.76 +/- 0.09 nM). The two cannabinoid receptor agonists, CP 55940 and WIN 55212-2, inhibited in a concentration-dependent manner cyclic AMP production induced by either 1 microM forskolin or isoproterenol with EC50 values in the nanomolar range (4.6 and 65 nM with forskolin and 1.0 and 5.1 nM with isoproterenol for CP 55940 and WIN 55212-2, respectively). Moreover, in striatal neurons and cerebellar granule cells, CP 55940 was also able to reduce the cyclic AMP accumulation induced by 1 microM forskolin with a potency similar to that observed in cortical neurons (EC50 values of 3.5 and 1.9 nM in striatum and cerebellum, respectively). SR 141716A antagonized the CP 55940- and WIN 55212-2-induced inhibition of cyclic AMP accumulation, suggesting CB1 receptor-specific mediation of these effects on all primary cultures tested. Furthermore, CP 55940 was unable to induce mitogen-activated protein kinase activation in either cortical or striatal neurons. In conclusion, our results show nanomolar efficiencies for CP 55940 and WIN 55212-2 on adenylyl cyclase activity and no effect on any other signal transduction pathway investigated in primary neuronal cultures.
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PMID:Characterization of CB1 receptors on rat neuronal cell cultures: binding and functional studies using the selective receptor antagonist SR 141716A. 897 52

The predominant animal model in which the pharmacology of cannabinoids is studied is the mouse. Nonetheless, the structure and functional expression of the mouse cannabinoid receptor (CB1) gene have not been reported. We have cloned and expressed the gene for the mouse CB1 receptor and compared its properties with those of native mouse CB1 receptors in brain and N18TG2 neuroblastoma cells. The mouse CB1 gene was isolated from a mouse 129 strain genomic library. Sequence analysis of a 6-kb BamHI fragment of the mouse CB1 genomic clone indicates 95% nucleic acid identity between mouse and rat (99.5% amino acid identity) and 90% nucleic acid identity (97% amino acid identity) between mouse and human. Examination of the 5' untranslated sequence of the mouse CB1 genomic clone revealed a splice junction site approximately 60 bp upstream from the translation start site, indicating the possibility of splice variants of the CB1 receptors. The coding region of the mouse CB1 receptor was stably expressed in 293 cells, and binding by [3H]SR 141716A and [3H]CP-55,940 was determined. The Bmax and Kd values obtained with [3H]SR 141716A (921 +/- 58 fmol/mg and 0.73 +/- 0.13 nM, respectively) were similar to those of native mouse CB1 receptors in brain (Bmax of 1.81 +/- 0.44 pmol/mg, Kd of 0.16 +/- 0.01 nM) and N18TG2 cells (Bmax of 197 +/- 29 fmol/mg, Kd of 0.182 +/- 0.08 nM). The mouse CB1 receptor genomic clone will be a useful tool for studying the function and regulation of the CB1 receptor in mice.
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PMID:Isolation and expression of a mouse CB1 cannabinoid receptor gene. Comparison of binding properties with those of native CB1 receptors in mouse brain and N18TG2 neuroblastoma cells. 903 53

In order to establish the structural requirements for binding to the brain cannabinoid receptor (CB1), we have synthesized numerous fatty acid amides, ethanolamides, and some related simple derivatives and have determined their Ki values. A few alpha-methyl- or alpha, alpha-dimethylarachidonoylalkylamides were also examined. In the 20:4, n-6 series, the unsubstituted amide is inactive; N-monoalkylation, at least up to a branched pentyl group, leads to significant binding. N,N-Dialkylation, with or without hydroxylation on one of the alkyl groups, leads to elimination of activity. Hydroxylation of the N-monoalkyl group at the omega carbon atom retains activity. In the 20x, n-6 series, x has to be either 3 or 4; the presence of only two double bonds leads to inactivation. In the n-3 series, the limited data reported suggest that the derived ethanolamides are either inactive or less active than comparable compounds in the n-6 series. Alkylation or dialkylation of the alpha carbon adjacent to the carbonyl group retains the level of binding in the case of anandamide (compounds 48, 49); however, alpha-monomethylation or alpha,alpha-dimethylation of N-propyl derivatives (50-53) potentiates binding and leads to the most active compounds seen in the present work (Ki values of 6.9 +/- 0.7 to 8.4 +/- 1.1 nM). We have confirmed that the presence of a chiral center on the N-alkyl substituent may lead to enantiomers which differ in their levels of binding (compounds 54, 57 and 55, 56).
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PMID:Structural requirements for binding of anandamide-type compounds to the brain cannabinoid receptor. 905 52

Cannabinoid receptor (CB) expression was characterized in immunological cell and tissue preparations. Northern analysis revealed approximately 6-kb transcripts for CB1 (brain-type) in mouse spleen and brain and in rat cerebellum. CB1 was not detected in mouse thymus or rat spleen RNA by Northern analysis. CB2 (peripheral) was detected as a approximately 4-kb transcript in mouse spleen and thymus and as approximately 2.4-kb transcripts in rat spleen. Quantitation of CB2 transcripts in mouse spleen and thymus revealed approximately 4 x 10(3) and approximately 4 x 10(2) molecules/100 ng RNA, respectively, with no quantifiable CB2 in mouse brain. Conversely, CB1 was expressed in mouse brain (approximately 2 x 10(5) molecules/100 ng RNA) with lower expression in mouse spleen (approximately 2 x 10(2) molecules/100 ng RNA) and was not quantifiable in mouse thymus. Competition binding in intact mouse splenocytes demonstrated that nonradiolabeled cannabinoids CP-55940, Win-55212-2, CP-56667, delta 9-THC, and cannabinol all competed for receptor binding with 3H-CP-55940, a high-affinity nondiscriminating CB1 and CB2 receptor ligand. Based on previous findings which demonstrated a marked inhibition of T-cell-dependent immune responses by cannabinoids, primary T cells and several T-cell lines were characterized. Radioligand binding analysis identified 100-300 cannabinoid receptor binding sites/cell with an approximate Kd of 200-700 pM in purified splenic T cells which also exhibited cannabinoid-induced inhibition of adenylate cyclase. Northern analysis of human T-cell lines revealed approximately 2.4-kb CB2 mRNA transcripts but no CB1 in HPB-ALL cells, a cell line which also exhibited inhibition of adenylate cyclase by delta 9-THC. Conversely, Jurkat E6-1 cells expressed an unusual mRNA banding pattern for CB2 expressing three distinct transcript sizes, none of which were 2.4 kb, the size for human CB2. Jurkat also did not express CB1 mRNA and did not exhibit inhibition of adenylate cyclase when treated with delta 9-THC. Collectively, these results provide further evidence that CB2 is the predominant cannabinoid receptor within the immune system and that this form of the receptor is expressed on T cells.
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PMID:Cannabinoid receptors CB1 and CB2: a characterization of expression and adenylate cyclase modulation within the immune system. 907 Mar 50


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