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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Cannabinoid receptors CB1 and CB2: a characterization of expression and adenylate cyclase modulation within the immune system. 907 Mar 50
Cannabinoids act at the
CB1
receptor to inhibit
adenylate cyclase
activity via a pertussis toxin-sensitive G-protein. Within the striatum,
CB1
receptors have been shown to be localized on the same neurons as Gi-coupled dopamine D2 receptors. In this study we have examined the interactions of
CB1
and D2 receptors on
adenylate cyclase
. In striatal neurons in primary culture, both the
CB1
receptor agonist [3-(1, 1-dimethylheptyl)-11-hydroxy-Delta8tetrahydrocannabinol] (HU210) and the D2 receptor agonist quinpirole inhibited forskolin-stimulated cAMP accumulation when applied separately. In contrast, HU210 and quinpirole in combination augmented cAMP accumulation. This augmentation was blocked by the
CB1
receptor antagonist SR141716A or the D2 antagonist sulpride. Pertussis toxin treatment of striatal neurons prevented the inhibition of cAMP accumulation by D2 receptors but unmasked a cannabinoid receptor-mediated stimulatory effect on cAMP accumulation. The cannabinoid receptor-stimulated accumulation of cAMP was blocked in a concentration-dependent manner by SR141716A, suggesting that the response was regulated through the
CB1
receptor. Similar augmentation of cAMP accumulation after pertussis toxin treatment was observed in Chinese hamster ovary (CHO) cells transfected with, and stably expressing, the
CB1
receptor. This stimulation of cAMP was not Ca2+-sensitive and was unaffected by a range of protein kinase inhibitors. Treatment of the pertussis toxin-treated cells with cholera toxin before
CB1
receptor activation amplified the stimulatory pathway, suggesting that this response was mediated through a Gs-type G-protein. Stimulation of cAMP accumulation was not observed after pertussis toxin treatment of CHO cells expressing the human CB2 receptor, suggesting that this novel signaling pathway is unique to the cannabinoid
CB1
receptor.
...
PMID:Concurrent stimulation of cannabinoid CB1 and dopamine D2 receptors augments cAMP accumulation in striatal neurons: evidence for a Gs linkage to the CB1 receptor. 920 17
Several derivatives of cannabinol and the 1,1-dimethylheptyl homolog (DMH) of cannabinol were prepared and assayed for binding to the brain and the peripheral cannabinoid receptors (
CB1
and CB2), as well as for activation of
CB1
- and CB2-mediated inhibition of
adenylylcyclase
. The DMH derivatives were much more potent than the pentyl (i.e., cannabinol) derivatives. 11-Hydroxycannabinol (4a) was found to bind potently to both
CB1
and CB2 (Ki values of 38.0 +/- 7.2 and 26.6 +/- 5.5 nM, respectively) and to inhibit
CB1
-mediated
adenylylcyclase
with an EC50 of 58.1 +/- 6.2 nM but to cause only 20% inhibition of CB2-mediated
adenylylcyclase
at 10 microM. It behaves as a specific, though not potent, CB2 antagonist. 11-Hydroxycannabinol-DMH (4b) is a very potent agonist for both
CB1
and CB2 (Ki values of 100 +/- 50 and 200 +/- 40 pM; EC50 of
adenylylcyclase
inhibition 56.2 +/- 4.2 and 207.5 +/- 27.8 pM, respectively).
...
PMID:Cannabinol derivatives: binding to cannabinoid receptors and inhibition of adenylylcyclase. 937 42
LY320135 is a selective antagonist for the brain
CB1
receptor, having greater than 70-fold higher affinity for the
CB1
than the peripheral CB2 receptor. The Ki values for LY320135 at the
CB1
and CB2 receptors, transfected and stably expressed in cell lines, were 224 nM and > 10 microM, respectively. Similar Ki values were measured in binding studies performed on cerebellum and spleen membrane preparations endogenously expressing the
CB1
(203 nM) and CB2 (> 10 microM) receptors, respectively. LY320135 functionally reversed anandamide-mediated
adenylate cyclase
inhibition in Chinese hamster ovary (CHO) cells stably expressing the
CB1
receptor. Pertussis toxin treatment of CHO cells expressing the
CB1
receptor attenuated the anandamide-mediated inhibition of
adenylate cyclase
and unmasked a stimulatory effect of anandamide on
adenylate cyclase
. The stimulatory component was blocked with LY320135. This compound also blocked WIN 55212-2-mediated inhibition of N-type calcium channels and activation of inwardly rectifying potassium channels in N18 and AtT-20-CB2 cells, respectively. LY320135 is a promising lead compound for the further development of novel, potent and selective cannabinoid antagonists of novel structure.
...
PMID:LY320135, a novel cannabinoid CB1 receptor antagonist, unmasks coupling of the CB1 receptor to stimulation of cAMP accumulation. 943 90
The mechanism by which
CB1
cannabinoid receptors are coupled to the Gi/Go class of G proteins was studied. A peptide representing the juxtamembrane carboxyl terminus robustly stimulated guanosine-5'-O-(3-thio)triphosphate binding. Peptides simulating subdomains of the third intracellular loop (IL3) activated minimally when present alone but produced additive effects when present in combination. Peptides representing the amino-side IL3 and the juxtamembrane carboxyl terminus autonomously inhibited
adenylate cyclase
, and this response was not significantly augmented or inhibited by peptides representing other intracellular domains. Site-directed antipeptide antibodies developed against the domains of the amino terminus, first extracellular loop, amino-side IL3, and juxtamembrane carboxyl terminus of
CB1
receptors failed to influence binding of [3H]CP-55940. However, IgG raised against the amino-side IL3 diminished the agonist-dependent inhibition of
adenylate cyclase
. These experiments suggest that the juxtamembrane carboxyl terminus is critical for G protein activation by
CB1
cannabinoid receptors and that the amino-side IL3 also may interact with Gi proteins leading to inhibition of
adenylate cyclase
.
...
PMID:Characterization of CB1 cannabinoid receptors using receptor peptide fragments and site-directed antibodies. 949 18
Marijuana has been in use for over 4000 years as a therapeutic and as a recreational drug. Within the past decade, two cannabinoid receptor types have been identified, their signal transduction characterized, and an endogenous lipid agonist isolated from mammalian tissues. The CB1 cannabinoid receptor is widely distributed in mammalian tissues, with the highest concentrations found in brain neurons.
CB1
receptors are coupled to modulation of
adenylate cyclase
and ion channels. The CB2 receptor is found in cells of the immune system and is coupled to inhibition of
adenylate cyclase
. Both receptor types selectively bind delta 9-THC, the active principle in marijuana, and anandamide (arachidonylethanolamide), an endogenous cannabimimetic eicosanoid. Progress is being made in the development of novel agonists and antagonists with receptor subtype selectivity, mice with genetic deletion of the cannabinoid receptors, and receptor-specific antibodies, which should help in providing a better understanding of the physiological role of the cannabinoid receptors.
...
PMID:Cannabinoid receptors and their endogenous agonists. 959 53
Immune suppression by cannabinoids has been widely demonstrated in a variety of experimental models. The identification of two major types of G-protein-coupled cannabinoid receptors expressed on leukocytes,
CB1
and CB2, has provided a putative mechanism of action for immune modulation by cannabinoid compounds. Ligand binding to both receptors negatively regulates
adenylate cyclase
, thereby lowering intracellular cyclic AMP (cAMP) levels. In the present studies, we demonstrated that cannabinol (CBN), a ligand that exhibits higher binding affinity for CB2, modulates immune responses and cAMP-mediated signal transduction in mouse lymphoid cells. Direct addition of CBN to naive cultured splenocytes produced a concentration-dependent inhibition of lymphoproliferative responses to anti-CD3, lipopolysaccharide, and phorbol-12-myristate-13-acetate/ionomycin stimulation. Similarly, a concentration-related inhibition of the in vitro anti-sheep red blood cell IgM antibody forming cell response was also observed by CBN. Evaluation of cAMP signaling in the presence of CBN showed a rapid and concentration-related inhibition of
adenylate cyclase
activity in both splenocytes and thymocytes. This decrease in intracellular cAMP levels produced by CBN resulted in a reduction of protein kinase A activity, consequently leading to an inhibition of transcription factor binding to the cAMP response element and kappaB motifs in both cell preparations. Collectively, these results demonstrate that CBN, a cannabinoid with minimal CNS activity, inhibited both cAMP signal transduction and immune function, further supporting the involvement of CB2 receptors in immune modulation by cannabimimetic agents.
...
PMID:Inhibition of the cyclic AMP signaling cascade and nuclear factor binding to CRE and kappaB elements by cannabinol, a minimally CNS-active cannabinoid. 960 25
Cannabinoid receptor agonists inhibit electrically evoked isometric contractions of the myenteric plexus--longitudinal muscle preparation of the guinea-pig small intestine (MPLM), probably by reducing release of acetylcholine (ACh) through the activation of prejunctional
CB1
receptors. As
CB1
receptors are thought to be negatively coupled through Gi/o proteins to both N-type Ca2+ channels and
adenylate cyclase
, we have now further investigated the involvement of
CB1
receptors by monitoring the effects of forskolin, 8-bromo-cAMP, 3-isobutyl-1-methylxanthine (IBMX), and extracellular Ca2+ on the ability of the cannabinoid agonist, (+)-WIN 55212 to inhibit electrically evoked contractions of the MPLM (0.1 Hz, 0.5 ms, and 110% maximal voltage). Some experiments were performed with normorphine instead of (+)-WIN 55212. At 10(-7) M, forskolin, 8-bromo-cAMP, and IBMX were found to reduce significantly the maximum inhibitory response to (+)-WIN 55212 by 49.4, 48.4, and 40.2%, respectively, without affecting control contractions or responses to exogenous ACh. Low external Ca2+ (0.64 mM) significantly increased the maximum response to (+)-WIN 55212 and shifted the curve slightly leftwards, whereas high external Ca2+ (5.08 mM) reduced the maximum response by 27.2%. The concentration-response curve to normorphine, which also reduces evoked contractions of this preparation as a result of a presynaptic inhibition of ACh release via opioid mu receptors, was affected similarly. These results support the hypothesis that cannabinoid-induced inhibition in the MPLM is mediated by
CB1
receptors.
...
PMID:Evidence that cannabinoid-induced inhibition of electrically evoked contractions of the myenteric plexus--longitudinal muscle preparation of guinea-pig small intestine can be modulated by Ca2+ and cAMP. 967 98
One of the prominent pharmacological features of drugs acting at the brain cannabinoid receptor (
CB1
) is the induction of alterations in motor behavior. Catalepsy, immobility, ataxia, or the impairment of complex behavioral acts are observed after acute administration of either natural and synthetic cannabinoid receptor agonists or the endogenous
CB1
ligand anandamide. The dense presence of
CB1
receptors in the cerebellum and in the basal ganglia, especially at the outflow nuclei (substantia nigra and the internal segment of the globus pallidus), supports the existence of an endogenous cannabinoid system regulating motor activity. In the basal ganglia, the functionality of the anandamide-
CB1
system is poorly understood. Dual effects are often observed after the administration of
CB1
ligands in animal models of pharmacological manipulation of basal ganglia transmitter systems, indicating that the activity of the anandamide-
CB1
system depends on the ongoing activation of the different elements of the basal ganglia. This finding is in agreement with the proposed activity-dependent release of anandamide from a plasmalemma precursor. Additionally, a potential state-dependent bidirectional coupling of the
CB1
receptor to the
adenylate cyclase
transduction system has also been described. From this perspective, the endogenous cannabinoid system can be proposed as a local regulator of neurotransmission processes within the basal ganglia. This system may serve as a counterregulatory homeostatic mechanism preserving the functional role of basal ganglia circuits in coding the serial order of events that constitute movement.
...
PMID:Role of the endogenous cannabinoid system in the regulation of motor activity. 997 80
Immune modulation by cannabinoids has been widely established over the past three decades. In spite of this, the mechanism of action responsible for immune modulation and other well described biological effects attributed to cannabinoid compounds has been elusive. The identification and cloning of two novel G protein coupled receptors,
CB1
and CB2, both of which bind cannabimimetic agents has served as the basis for a putative mechanism of action.
CB1
, which is also referred to as the
central cannabinoid receptor
is the primary form expressed within the central nervous system (CNS). Conversely, the peripheral cannabinoid receptor, CB2, does not appear to be expressed within the CNS but is the predominant form of the receptor expressed within the immune system. Both
CB1
and CB2 negatively regulate
adenylate cyclase
activity through a pertussis toxin sensitive GTP-binding protein. Recent investigations addressing the mechanism by which cannabinoids disrupt leukocyte function have demonstrated that in the presence of cannabinoids the cAMP signaling cascade is markedly inhibited as evidenced by decreased
adenylate cyclase
and protein kinase A activity and decreased DNA binding by cAMP response element binding proteins. The focus of this discussion will be on the effects cannabinoids elicit on events within the cAMP cascade and related signaling pathways critical to the regulation of cytokine genes.
...
PMID:Inhibition of the cAMP signaling cascade via cannabinoid receptors: a putative mechanism of immune modulation by cannabinoid compounds. 1002 33
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