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Tamaki Hayase - One of the best experts on this subject based on the ideXlab platform.
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Working memory- and anxiety-related behavioral effects of repeated nicotine as a stressor: the role of cannabinoid receptors
BMC Neuroscience, 2013Co-Authors: Tamaki HayaseAbstract:Background Like emotional symptoms such as anxiety, modulations in working memory are among the frequently-reported but controversial psychiatric symptoms associated with nicotine (NC) administration. In the present study, repeated NC-induced modulations in working memory, along with concurrently-observed anxiety-related behavioral alterations, were investigated in mice, and compared with the effects of a typical cognition-impairing stressor, immobilization stress (IM). Furthermore, considering the structural and functional contributions of brain cannabinoid (CB) receptors in NC-induced psychiatric symptoms including emotional symptoms, the interactive effects of brain CB receptor ligands (CB ligands) and NC and/or IM on the working memory- and anxiety-related behaviors were examined. Results Statistically significant working memory impairment-like behavioral alterations in the Y-maze test and anxiety-like behavioral alterations in the elevated plus-maze (EPM) test were observed in the groups of mice treated with 0.8 mg/kg NC (subcutaneous (s.c.) 0.8 mg/kg treatment, 4 days) and/or IM (10 min treatment, 4 days). In the group of mice treated with NC plus IM (NC-IM group), an enhancement of the behavioral alterations was observed. Among the CB type 1 (CB1) antagonist AM 251 (AM), the non-selective CB agonist CP 55,940 (CP), and the CB1 partial agonist/antagonist Virodhamine (VD), significant recovering effects were provided by AM (0.2-2.5 mg/kg) and VD (5 mg/kg) against the working memory impairment-like behaviors, whereas significant anxiolytic-like effects (recoveries from both attenuated percentage of entries into open arms and attenuated percentage of time spent on open arms) were provided by VD (1–10 mg/kg) and CP (2 mg/kg) against the anxiety-like behaviors. Conclusions Although working memory impairment- and anxiety-like behavioral alterations were commonly induced in the NC, IM, and NC-IM groups and the therapeutic involvement of CB receptors was shown, there were discrepancies in the types of effective CB ligands between the working memory- and anxiety-related behaviors. The differential involvements of CB receptor subtypes and indirectly activated neurotransmitter systems may contribute to these discrepancies.
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Working memory- and anxiety-related behavioral effects of repeated nicotine as a stressor: the role of cannabinoid receptors
BMC neuroscience, 2013Co-Authors: Tamaki HayaseAbstract:Like emotional symptoms such as anxiety, modulations in working memory are among the frequently-reported but controversial psychiatric symptoms associated with nicotine (NC) administration. In the present study, repeated NC-induced modulations in working memory, along with concurrently-observed anxiety-related behavioral alterations, were investigated in mice, and compared with the effects of a typical cognition-impairing stressor, immobilization stress (IM). Furthermore, considering the structural and functional contributions of brain cannabinoid (CB) receptors in NC-induced psychiatric symptoms including emotional symptoms, the interactive effects of brain CB receptor ligands (CB ligands) and NC and/or IM on the working memory- and anxiety-related behaviors were examined. Statistically significant working memory impairment-like behavioral alterations in the Y-maze test and anxiety-like behavioral alterations in the elevated plus-maze (EPM) test were observed in the groups of mice treated with 0.8 mg/kg NC (subcutaneous (s.c.) 0.8 mg/kg treatment, 4 days) and/or IM (10 min treatment, 4 days). In the group of mice treated with NC plus IM (NC-IM group), an enhancement of the behavioral alterations was observed. Among the CB type 1 (CB1) antagonist AM 251 (AM), the non-selective CB agonist CP 55,940 (CP), and the CB1 partial agonist/antagonist Virodhamine (VD), significant recovering effects were provided by AM (0.2-2.5 mg/kg) and VD (5 mg/kg) against the working memory impairment-like behaviors, whereas significant anxiolytic-like effects (recoveries from both attenuated percentage of entries into open arms and attenuated percentage of time spent on open arms) were provided by VD (1–10 mg/kg) and CP (2 mg/kg) against the anxiety-like behaviors. Although working memory impairment- and anxiety-like behavioral alterations were commonly induced in the NC, IM, and NC-IM groups and the therapeutic involvement of CB receptors was shown, there were discrepancies in the types of effective CB ligands between the working memory- and anxiety-related behaviors. The differential involvements of CB receptor subtypes and indirectly activated neurotransmitter systems may contribute to these discrepancies.
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Nicotine (NC)-induced "depressive" behavioral symptoms and effects of antidepressants including cannabinoids (CBs)
The Journal of toxicological sciences, 2008Co-Authors: Tamaki HayaseAbstract:Depression is one of the frequently-observed psychiatric symptoms associated with nicotine (NC) use. In the present study, considering the unique effects of NC (e.g. antidepressant effects have also been reported), the time course of the NC-induced depressive behavioral alterations in a mouse model was compared with a typical depression-inducing stressor. Furthermore, based on the involvement of cannabinoid (CB) receptors in the behavioral effects of NC, the effects of antidepressants including CB ligands (CBs) against the NC-induced behavioral alterations were also investigated. Repeated subcutaneous NC treatments (0.3 mg/kg, 4 days), like repeated immobilization stress (IM) treatments (10 min, 4 days), caused prolonged depressive effects (increased immobility time) at both 2 hr and 1 day time points after the last treatment in the tail suspension test. However, in the NC group, depressive effects (suppressed swimming behaviors) were observed only at the 2 hr time point in the forced swimming test. The antidepressants amitriptyline, clomipramine and fluvoxamine, the endogenous mixed CB agonist/antagonist Virodhamine and the anandamide-like cannabimimetic 0-2093 provided antagonistic effects against the depressive behaviors in the tail suspension test. However, in the forced swimming test, NC-induced depressive behaviors were antagonized only by the CBs Virodhamine and 0-2093. The present results demonstrated depressive effects of NC in two typical behavioral tests, which support the risk of repeated NC use. The shortened behavioral alterations in the forced swimming test, as compared to the IM group, seemed to reflect the neuronal modifications peculiar to NC, which are antagonized by some CBs.
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Chronologically overlapping occurrences of nicotine-induced anxiety- and depression-related behavioral symptoms: effects of anxiolytic and cannabinoid drugs
BMC Neuroscience, 2007Co-Authors: Tamaki HayaseAbstract:Background Anxiety and depression are among the most frequently-observed psychiatric symptoms associated with nicotine (NC). In addition to the similarity to other addictive drugs, these NC-induced symptoms are characteristic in that the opposite behavioral effects, i.e. anxiolytic and antidepressant effects, which may reinforce the habitual use of NC, have also been reported. In the present study, the time course of anxiety- and depression-related behavioral alterations was examined in mice. Furthermore, based on the reported similarity in the mechanisms responsible for NC-induced anxiety- and depression-related symptoms, as well as the contribution of brain cannabinoid (CB) receptors to these behavioral symptoms, the effects of anxiolytics and CB receptor ligands (CBs) against these behavioral symptoms were investigated. Results Repeated subcutaneous NC treatments (0.3 mg/kg, 4 days), compared with a single treatment (0.5 mg/kg), caused both prolonged anxiogenic effects in the elevated plus-maze test, and prolonged depressive effects in the forced swimming test, even at 120 min time point after the last NC treatment. A transient anxiolytic preference for open arms was also observed in the elevated plus-maze test. Among the anxiolytics and CBs, the serotonin 1A (5-HT1A) antagonist WAY 100135 and the endogenous mixed CB agonist/antagonist Virodhamine (VD), when administered intraperitoneally before each NC treatment, provided the strongest antagonistic effects against the anxiety-related symptoms. However, against the depression-related symptoms, only VD provided significant antagonistic effects in both single and repeated treatment groups. Conclusion The present results support the presence of a chronological overlap of NC-induced anxiety- and depression-related behavioral symptoms, and the contribution of brain CB receptors to these behavioral symptoms. The repeated NC-induced prolongation of these behavioral symptoms and the early transient anxiolytic behavioral alterations support an increased possibility of the habitual use of NC. Furthermore, based on the antagonistic effects of VD, one can predict that the characteristic effects on brain CB receptors as a mixed CB agonist/antagonist contributed to its therapeutic effects as both an anxiolytic and an antidepressant.
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Chronologically overlapping occurrences of nicotine-induced anxiety- and depression-related behavioral symptoms: effects of anxiolytic and cannabinoid drugs
BMC neuroscience, 2007Co-Authors: Tamaki HayaseAbstract:Anxiety and depression are among the most frequently-observed psychiatric symptoms associated with nicotine (NC). In addition to the similarity to other addictive drugs, these NC-induced symptoms are characteristic in that the opposite behavioral effects, i.e. anxiolytic and antidepressant effects, which may reinforce the habitual use of NC, have also been reported. In the present study, the time course of anxiety- and depression-related behavioral alterations was examined in mice. Furthermore, based on the reported similarity in the mechanisms responsible for NC-induced anxiety- and depression-related symptoms, as well as the contribution of brain cannabinoid (CB) receptors to these behavioral symptoms, the effects of anxiolytics and CB receptor ligands (CBs) against these behavioral symptoms were investigated. Repeated subcutaneous NC treatments (0.3 mg/kg, 4 days), compared with a single treatment (0.5 mg/kg), caused both prolonged anxiogenic effects in the elevated plus-maze test, and prolonged depressive effects in the forced swimming test, even at 120 min time point after the last NC treatment. A transient anxiolytic preference for open arms was also observed in the elevated plus-maze test. Among the anxiolytics and CBs, the serotonin 1A (5-HT1A) antagonist WAY 100135 and the endogenous mixed CB agonist/antagonist Virodhamine (VD), when administered intraperitoneally before each NC treatment, provided the strongest antagonistic effects against the anxiety-related symptoms. However, against the depression-related symptoms, only VD provided significant antagonistic effects in both single and repeated treatment groups. The present results support the presence of a chronological overlap of NC-induced anxiety- and depression-related behavioral symptoms, and the contribution of brain CB receptors to these behavioral symptoms. The repeated NC-induced prolongation of these behavioral symptoms and the early transient anxiolytic behavioral alterations support an increased possibility of the habitual use of NC. Furthermore, based on the antagonistic effects of VD, one can predict that the characteristic effects on brain CB receptors as a mixed CB agonist/antagonist contributed to its therapeutic effects as both an anxiolytic and an antidepressant.
Saoirse E. O'sullivan - One of the best experts on this subject based on the ideXlab platform.
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Endocannabinoids modulate human blood–brain barrier permeability in vitro
British journal of pharmacology, 2015Co-Authors: William H Hind, Cristina Tufarelli, Maria Neophytou, Susan I. Anderson, Timothy J. England, Saoirse E. O'sullivanAbstract:Background and Purpose Endocannabinoids alter permeability at various epithelial barriers, and cannabinoid receptors and endocannabinoid levels are elevated by stroke, with potential neuroprotective effects. We therefore explored the role of endocannabinoids in modulating blood–brain barrier (BBB) permeability in normal conditions and in an ischaemia/reperfusion model. Experimental Approach Human brain microvascular endothelial cell and astrocyte co-cultures modelled the BBB. Ischaemia was modelled by oxygen-glucose deprivation (OGD) and permeability was measured by transepithelial electrical resistance. Endocannabinoids or endocannabinoid-like compounds were assessed for their ability to modulate baseline permeability or OGD-induced hyperpermeability. Target sites of action were investigated using receptor antagonists and subsequently identified with real-time PCR. Key Results Anandamide (10 μM) and oleoylethanolamide (OEA, 10 μM) decreased BBB permeability (i.e. increased resistance). This was mediated by cannabinoid CB2 receptors, transient receptor potential vanilloid 1 (TRPV1) channels, calcitonin gene-regulated peptide (CGRP) receptor (anandamide only) and PPARα (OEA only). Application of OEA, palmitoylethanolamide (both PPARα mediated) or Virodhamine (all 10 μM) decreased the OGD-induced increase in permeability during reperfusion. 2-Arachidonoyl glycerol, noladin ether and oleamide did not affect BBB permeability in normal or OGD conditions. N-arachidonoyl-dopamine increased permeability through a cytotoxic mechanism. PPARα and γ, CB1 receptors, TRPV1 channels and CGRP receptors were expressed in both cell types, but mRNA for CB2 receptors was only present in astrocytes. Conclusion and Implication The endocannabinoids may play an important modulatory role in normal BBB physiology, and also afford protection to the BBB during ischaemic stroke, through a number of target sites.
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Cannabinoid activation of peroxisome proliferator-activated receptors: Potential for modulation of inflammatory disease
Immunobiology, 2009Co-Authors: Saoirse E. O'sullivan, David A KendallAbstract:Cannabinoids act via cell surface G protein-coupled receptors (CB(1) and CB(2)) and the ion channel receptor TRPV1. Evidence has now emerged suggesting that an additional target is the peroxisome proliferator-activated receptor (PPAR) family of nuclear receptors. There are three PPAR subtypes alpha, delta (also known as beta) and gamma, which regulate cell differentiation, metabolism and immune function. The major endocannabinoids, anandamide and 2-arachidonoylglycerol, and ajulemic acid, a structural analogue of the phytocannabinoid Delta(9)-tetrahydrocannabinol (THC), have anti-inflammatory properties mediated by PPARgamma. Other cannabinoids which activate PPARgamma include N-arachidonoyl-dopamine, THC, cannabidiol, HU210, WIN55212-2 and CP55940. The endogenous acylethanolamines, oleoylethanolamide and palmitoylethanolamide regulate feeding and body weight, stimulate fat utilization and have neuroprotective effects mediated through PPARalpha. Other endocannabinoids that activate PPARalpha include anandamide, Virodhamine and noladin ether. There is, as yet, little direct evidence for interactions of cannabinoids with PPARdelta. There is a convergence of effects of cannabinoids, acting via cell surface and nuclear receptors, on immune cell function which provides promise for the targeted therapy of a variety of immune, particularly neuroinflammatory, diseases.
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Cannabinoids go nuclear: evidence for activation of peroxisome proliferator-activated receptors.
British journal of pharmacology, 2007Co-Authors: Saoirse E. O'sullivanAbstract:Cannabinoids act at two classical cannabinoid receptors (CB1 and CB2), a 7TM orphan receptor and the transmitter-gated channel transient receptor potential vanilloid type-1 receptor. Recent evidence also points to cannabinoids acting at members of the nuclear receptor family, peroxisome proliferator-activated receptors (PPARs, with three subtypes alpha, beta (delta) and gamma), which regulate cell differentiation and lipid metabolism. Much evidence now suggests that endocannabinoids are natural activators of PPAR alpha. Oleoylethanolamide regulates feeding and body weight, stimulates fat utilization and has neuroprotective effects mediated through activation of PPAR alpha. Similarly, palmitoylethanolamide regulates feeding and lipid metabolism and has anti-inflammatory properties mediated by PPAR alpha. Other endocannabinoids that activate PPAR alpha include anandamide, Virodhamine and noladin. Some (but not all) endocannabinoids also activate PPAR gamma; anandamide and 2-arachidonoylglycerol have anti-inflammatory properties mediated by PPAR gamma. Similarly, ajulemic acid, a structural analogue of a metabolite of Delta(9)-tetrahydrocannabinol (THC), causes anti-inflammatory effects in vivo through PPAR gamma. THC also activates PPAR gamma, leading to a time-dependent vasorelaxation in isolated arteries. Other cannabinoids which activate PPAR gamma include N-arachidonoyl-dopamine, HU210, WIN55212-2 and CP55940. In contrast, little research has been carried out on the effects of cannabinoids at PPAR delta. In this newly emerging area, a number of research questions remain unanswered; for example, why do cannabinoids activate some isoforms and not others? How much of the chronic effects of cannabinoids are through activation of nuclear receptors? And importantly, do cannabinoids confer the same neuro- and cardioprotective benefits as other PPAR alpha and PPAR gamma agonists? This review will summarize the published literature implicating cannabinoid-mediated PPAR effects and discuss the implications thereof.
Roger G Pertwee - One of the best experts on this subject based on the ideXlab platform.
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endocannabinoids and their pharmacological actions
Handbook of experimental pharmacology, 2015Co-Authors: Roger G PertweeAbstract:The endocannabinoid system consists of G protein-coupled cannabinoid CB1 and CB2 receptors, of endogenous compounds known as endocannabinoids that can target these receptors, of enzymes that catalyse endocannabinoid biosynthesis and metabolism, and of processes responsible for the cellular uptake of some endocannabinoids. This review presents in vitro evidence that most or all of the following 13 compounds are probably orthosteric endocannabinoids since they have all been detected in mammalian tissues in one or more investigation, and all been found to bind to cannabinoid receptors, probably to an orthosteric site: anandamide, 2-arachidonoylglycerol, noladin ether, dihomo-γ-linolenoylethanolamide, Virodhamine, oleamide, docosahexaenoylethanolamide, eicosapentaenoylethanolamide, sphingosine, docosatetraenoylethanolamide, N-arachidonoyldopamine, N-oleoyldopamine and haemopressin. In addition, this review describes in vitro findings that suggest that the first eight of these compounds can activate CB1 and sometimes also CB2 receptors and that another two of these compounds are CB1 receptor antagonists (sphingosine) or antagonists/inverse agonists (haemopressin). Evidence for the existence of at least three allosteric endocannabinoids is also presented. These endogenous compounds appear to target allosteric sites on cannabinoid receptors in vitro, either as negative allosteric modulators of the CB1 receptor (pepcan-12 and pregnenolone) or as positive allosteric modulators of this receptor (lipoxin A4) or of the CB2 receptor (pepcan-12). Also discussed are current in vitro data that indicate the extent to which some established or putative orthosteric endocannabinoids seem to target non-cannabinoid receptors and ion channels, particularly at concentrations at which they have been found to interact with CB1 or CB2 receptors.
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Inhibition of human neutrophil chemotaxis by endogenous cannabinoids and phytocannabinoids: evidence for a site distinct from CB1 and CB2.
Molecular pharmacology, 2007Co-Authors: Douglas Mchugh, Roger G Pertwee, Carolyn Tanner, Raphael Mechoulam, Ruth A. RossAbstract:Here, we show a novel pharmacology for inhibition of human neutrophil migration by endocannabinoids, phytocannabinoids, and related compounds. The endocannabinoids Virodhamine and N -arachidonoyl dopamine are potent inhibitors of N -formyl-l-methionyl-l-leucyl-l-phenylalanine-induced migration of human neutrophils, with IC 50 values of 0.2 and 8.80 nM, respectively. The endocannabinoid anandamide inhibits human neutrophil migration at nanomolar concentrations in a biphasic manner. The phytocannabinoid (-)-cannabidiol is a partial agonist, being ∼40 fold more potent than (+)-cannabidiol; abnormal-cannabidiol is a full agonist. Furthermore, the abnormal-cannabidiol (CBD) analog trans -4-[3-methyl-6-(1-methylethenyl)-2-cyclohexen-1-yl]-5-methyl-1,3-benzenediol (O-1602) inhibits migration, with an IC 50 value of 33 nM. This reported profile of agonist efficacy and potency parallels with the pharmacology of the novel “abnormal-cannabidiol” receptor or a related orphan G protein-coupled receptor, which are already known to modulate cell migration. Although having no effect alone, N -arachidonoyl l-serine attenuated inhibition of human neutrophil migration induced by anandamide, Virodhamine, and abnormal-CBD. Our data also suggest that there is cross-talk/negative co-operativity between the cannabinoid CB 2 receptor and this novel target: CB 2 receptor antagonists significantly enhance the inhibition observed with anandamide and Virodhamine. This study reveals that certain endogenous lipids, phytocannabinoids, and related ligands are potent inhibitors of human neutrophil migration, and it implicates a novel pharmacological target distinct from cannabinoid CB 1 and CB 2 receptors; this target is antagonized by the endogenous compound N -arachidonoyl l-serine. Furthermore, our findings have implications for the potential pharmacological manipulation of elements of the endocannabinoid system for the treatment of various inflammatory conditions.
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GPR55: a new member of the cannabinoid receptor clan?
British journal of pharmacology, 2007Co-Authors: Roger G PertweeAbstract:In this issue of the British Journal of Pharmacology, Ryberg et al. present convincing in vitro evidence that the orphan GPCR, GPR55, is a cannabinoid receptor. GPR55 was activated by a range of plant, synthetic and endogenous cannabinoids and blocked by the non-psychoactive phytocannabinoid, cannabidiol. Their experiments have revealed several differences between the pharmacology of GPR55 and the established cannabinoid CB1 and CB2 receptors. For example, the CB1 receptor antagonist, AM251, activated GPR55 and the main psychoactive constituent of cannabis, Δ9-tetrahydrocannabinol, displayed greater efficacy at GPR55 than at CB1 or CB2 receptors. They also compared the distribution of GPR55 and CB1 mRNA in mouse and report that GPR55 couples to Gα13, that it is activated by Virodhamine, palmitoylethanolamide and oleoylethanolamide, and that Virodhamine displays relatively high efficacy as a GPR55 agonist. Still to be identified are the main roles played by GPR55 in health and disease and any potential therapeutic benefits of activating or blocking this receptor.
Eberhard Schlicker - One of the best experts on this subject based on the ideXlab platform.
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Prostaglandins of the E series inhibit monoamine release via EP3 receptors: proof with the competitive EP3 receptor antagonist L-826,266.
Naunyn-Schmiedeberg's archives of pharmacology, 2009Co-Authors: J. Günther, Barbara Malinowska, K. Schulte, D. Wenzel, Eberhard SchlickerAbstract:Prostaglandin E2 (PGE2) and its analogue sulprostone inhibit noradrenaline and serotonin release in rodent tissues. We examined whether the receptor involved is blocked by the EP3 antagonist L-826,266, whether such receptors also occur on central cholinergic neurones and retinal dopaminergic cells, whether PGE2 is produced by the degradation of the endocannabinoid Virodhamine and whether EP3 receptor activation stimulates 35S-GTPγS binding. Transmitter release was studied as electrically evoked tritium overflow in superfused tissues preincubated with 3H-noradrenaline (which in the guinea pig retina labels dopaminergic cells), 3H-serotonin or 3H-choline. 35S-GTPγS binding, a measure of G protein activation, was studied in mouse and guinea pig hippocampal membranes. L-826,266 antagonised the effect of sulprostone on noradrenaline release in the rat cortex, yielding a Schild plot-based pA2 value of 7.56. Apparent pA2 values in mouse cortex and rat vas deferens (noradrenaline release) and rat cortex (serotonin release) were 7.55, 7.87 and 7.67, respectively. PGE2 did not affect acetylcholine release in rat brain and dopamine release in guinea pig retina. In seven mice tissues, noradrenaline release was inhibited by sulprostone but not affected by Virodhamine. 35S-GTPγS binding was not altered by sulprostone but stimulated by the cannabinoid agonist WIN 55,212-2. Prostaglandins of the E series inhibit monoamine release via EP3 receptors at which L-826,266 is a competitive antagonist. EP3 receptors that inhibit transmitter release are not present on central cholinergic neurones and retinal dopaminergic cells. Virodhamine is not converted to PGE2. An EP3 receptor model based on 35S-GTPγS binding could not be identified.
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Role of endocannabinoids in cardiovascular shock.
Journal of Physiology and Pharmacology, 2008Co-Authors: Barbara Malinowska, Lupinski S, Godlewski G, Urszula Baranowska, Eberhard SchlickerAbstract:Endocannabinoids (e.g. anandamide, 2-arachidonoylglycerol or Virodhamine) regulate the function of the cardiovascular system mainly in the following way: 1) by acting via CB(1) receptors, 2) by activation of CB(2) receptors, and 3) by modifying the function of vanilloid TRPV1, serotonin 5-HT(3) and alpha(7)-subunit-containing nicotinic acetylcholine receptors. Endocannabinoids are implicated in the pathogenesis of hypertension and of hypotension associated with haemorrhagic, endotoxic, and cardiogenic shock, and with advanced liver cirrhosis. There is also evidence for their involvement in the control of atherosclerosis.
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Virodhamine relaxes the human pulmonary artery through the endothelial cannabinoid receptor and indirectly through a COX product.
British journal of pharmacology, 2008Co-Authors: Hanna Kozłowska, Marta Baranowska, Eberhard Schlicker, Miroslaw Kozlowski, Jerzy Laudanski, Barbara MalinowskaAbstract:Background and purpose: The endocannabinoid Virodhamine is a partial agonist at the cannabinoid CB1 receptor and a full agonist at the CB2 receptor, and relaxes rat mesenteric arteries through endothelial cannabinoid receptors. Its concentration in the periphery exceeds that of the endocannabinoid anandamide. Here, we examined the influence of Virodhamine on the human pulmonary artery. Experimental approach: Isolated human pulmonary arteries were obtained during resections for lung carcinoma. Vasorelaxant effects of Virodhamine were examined on endothelium-intact vessels precontracted with 5-HT or KCl. Key results: Virodhamine, unlike WIN 55,212-2, relaxed 5-HT-precontracted vessels concentration dependently. The effect of Virodhamine was reduced by endothelium denudation, two antagonists of the endothelial cannabinoid receptor, cannabidiol and O-1918, and a high concentration of the CB1 receptor antagonist rimonabant (5 μM), but only slightly attenuated by the NOS inhibitor L-NAME and not affected by a lower concentration of rimonabant (100 nM) or by the CB2 and vanilloid receptor antagonists SR 144528 and capsazepine, respectively. The COX inhibitor indomethacin and the fatty acid amide hydrolase inhibitor URB597 and combined administration of selective blockers of small (apamin) and intermediate and large (charybdotoxin) conductance Ca2+-activated K+ channels attenuated Virodhamine-induced relaxation. The vasorelaxant potency of Virodhamine was lower in KCl- than in 5-HT-precontracted preparations. Conclusions and implications: Virodhamine relaxes the human pulmonary artery through the putative endothelial cannabinoid receptor and indirectly through a COX-derived vasorelaxant prostanoid formed from the Virodhamine metabolite, arachidonic acid. One or both of these mechanisms may stimulate vasorelaxant Ca2+-activated K+ channels. British Journal of Pharmacology (2008) 155, 1034–1042; doi:10.1038/bjp.2008.371; published online 22 September 2008
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Lack of CB1 receptors increases noradrenaline release in vas deferens without affecting atrial noradrenaline release or cortical acetylcholine release
British journal of pharmacology, 2003Co-Authors: Eberhard Schlicker, Agnes Redmer, André Werner, M. KathmannAbstract:We studied whether cannabinoid CB1 receptor gene disruption (to yield CB1−/− mice) affects the electrically evoked tritium overflow from vas deferens and atrial pieces preincubated with [3H]-noradrenaline (NA) (‘noradrenaline release') and from cerebral cortex slices preincubated with [3H]-choline (‘acetylcholine release'). NA release was higher by 37% in vas deferens from CB1−/− mice than in vas deferens from CB1+/+ mice. The cannabinoid receptor agonist WIN 55,212-2 inhibited, and the CB1 receptor inverse agonist/antagonist SR 141716, increased NA release in vas deferens from CB1+/+ mice without affecting it in vas deferens from CB1−/− mice. Atrial NA release did not differ between CB1+/+ and CB1−/− mice nor did WIN 55,212-2 affect NA release in either strain. Cortical acetylcholine (Ach) release did not differ between CB1+/+ and CB1−/− mice. WIN 55,212-2 inhibited, but SR 141716 did not affect, Ach release in the cortex from CB1+/+ mice. Both drugs did not alter Ach release in the cortex from CB1−/− mice. Tritium content did not differ between CB1+/+ and CB1−/− mice in any preparation. In conclusion, the increase in NA release associated with CB1 receptor deficiency in the vas deferens, which cannot be ascribed to an alteration of tritium content of the preparations, suggests an endogenous tone at the CB1 receptors of CB1+/+ mice in this tissue. Furthermore, the effect of WIN 55,212-2 on NA release in the vas deferens and on cortical Ach release involves CB1 receptors, whereas the involvement of non-CB1–non-CB2 receptors can be excluded. Keywords: Cerebral cortex, vas deferens, atrium, acetylcholine release, noradrenaline release, cannabinoid CB1 receptors, CB1 receptor-deficient mouse, presynaptic receptors, SR 141716 Introduction Cannabinoid CB1 receptors serve as presynaptic inhibitory receptors on a variety of central and peripheral neurones (for review, see Schlicker & Kathmann, 2001; Howlett et al., 2002). These receptors are activated by endocannabinoids like anandamide, 2-arachidonoylglycerol, noladin ether and Virodhamine (Hanus et al., 2001; Porter & Felder, 2001; Porter et al., 2002). Many types of presynaptic CB1 receptors appear to be subject to an endogenous tone as suggested by the fact that CB1 receptor inverse agonists/antagonists like SR 141716 facilitate the release of the respective neurotransmitter (for review, see Pertwee, 1999; Schlicker & Kathmann, 2001). It is of interest in this context whether lack of CB1 receptors will lead to the same result. We have indeed found recently (Kathmann et al., 2001b) that in hippocampal slices, in which SR 141716 increases acetylcholine (Ach) release (Kathmann et al., 2001a), the release of this transmitter was also increased by CB1 receptor deficiency (CB1 receptor knockout mouse (CB1−/−) generated by Zimmer et al. (1999) from C57BL/6J mice). This alteration in transmitter release is very specific inasmuch as hippocampal noradrenaline (NA) release and striatal Ach release (both of which are not subject to modulation via CB1 receptors; Schlicker et al., 1997; Kathmann et al., 2001a) did not differ between both strains (Kathmann et al., 2001b). The aim of the present study was to examine whether parallel effects of SR 141716 and of CB1 receptor deficiency also occur in other isolated tissues of the mouse. For this purpose, we determined the influence of CB1 receptor gene disruption on NA release in the vas deferens and in the atrium. NA release in the vas deferens is inhibited via presynaptic CB1 receptors subject to an endogenous tone (Rinaldi-Carmona et al., 1994; Pertwee et al., 1996), whereas atrial NA release is not affected by presynaptic CB1 receptors at all (Trendelenburg et al., 2000). Our study was extended to cerebral cortex slices in which Ach release was determined. This experimental model differs from the latter two and from the models considered in our previous study (Kathmann et al., 2001b) in that the release of the transmitter is inhibited via presynaptic CB1 receptors, which are, however, not subject to an endogenous tone, that is, Ach release is not facilitated by SR 141716 (Kathmann et al., 2001a).
Basalingappa L. Hungund - One of the best experts on this subject based on the ideXlab platform.
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SPECIAL ISSUE ARTICLE ROLE OF THE ENDOCANNABINOID SYSTEM IN THE DEVELOPMENT OF TOLERANCE TO ALCOHOL
2005Co-Authors: Balapal S. Basavarajappa, Basalingappa L. HungundAbstract:The present review evaluates the evidence that the endocannabinoid system plays in the development of tolerance to alcohol. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB 1 receptor), which was activated by ∆ 9 -tetrahydrocannabinol (∆ 9 -THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. Until now, four fatty acid derivatives identified to be arachidonylethanolamide (AEA), 2-arachidonylglycerol (2-AG), 2-arachidonylglycerol ether (noladin ether) and Virodhamine have been isolated from both nervous and peripheral tissues. Both AEA and 2-AG have been shown to mimic the pharmacological and behavioural effects of ∆ 9 -THC. The role of the endocannabinoid system in the development of tolerance to alcohol was not known until recently. Recent studies from our laboratory have implicated for the first time a role for the endocannabinoid system in development of tolerance to alcohol. Chronic alcohol treatment has been shown to down-regulate CB1 receptors and its signal transduction. The observed downregulation of CB1 receptor function results from the persistent stimulation of the receptors by AEA and 2-AG, the synthesis of which has been shown to be increased by chronic alcohol treatment. The enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid alcohol intake, have significantly reduced CB 1 receptor function in the brain, consistent with other studies in which the CB1 receptor antagonist SR 141716A has been shown to block voluntary alcohol intake in rodents. Similarly, activation of the CB 1 receptor system promoted alcohol craving, suggesting a role for the CB 1 receptor gene in excessive alcohol drinking behaviour and development of alcoholism. Ongoing investigations may lead to a better understanding of the mechanisms underlying the development of tolerance to alcohol and to develop therapeutic strategies to treat alcoholism.
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Role of the endocannabinoid system in the development of tolerance to alcohol.
Alcohol and alcoholism (Oxford Oxfordshire), 2004Co-Authors: Balapal S. Basavarajappa, Basalingappa L. HungundAbstract:The present review evaluates the evidence that the endocannabinoid system plays in the development of tolerance to alcohol. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB1 receptor), which was activated by Δ9-tetrahydrocannabinol (Δ9-THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. Until now, four fatty acid derivatives identified to be arachidonylethanolamide (AEA), 2-arachidonylglycerol (2-AG), 2-arachidonylglycerol ether (noladin ether) and Virodhamine have been isolated from both nervous and peripheral tissues. Both AEA and 2-AG have been shown to mimic the pharmacological and behavioural effects of Δ9-THC. The role of the endocannabinoid system in the development of tolerance to alcohol was not known until recently. Recent studies from our laboratory have implicated for the first time a role for the endocannabinoid system in development of tolerance to alcohol. Chronic alcohol treatment has been shown to down-regulate CB1 receptors and its signal transduction. The observed downregulation of CB1 receptor function results from the persistent stimulation of the receptors by AEA and 2-AG, the synthesis of which has been shown to be increased by chronic alcohol treatment. The enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid alcohol intake, have significantly reduced CB1 receptor function in the brain, consistent with other studies in which the CB1 receptor antagonist SR 141716A has been shown to block voluntary alcohol intake in rodents. Similarly, activation of the CB1 receptor system promoted alcohol craving, suggesting a role for the CB1 receptor gene in excessive alcohol drinking behaviour and development of alcoholism. Ongoing investigations may lead to a better understanding of the mechanisms underlying the development of tolerance to alcohol and to develop therapeutic strategies to treat alcoholism. ( Received 21 July 2004; first review notified 30 July 2004; in revised form 18 September 2004; accepted 1 October 2004 )
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SPECIAL ISSUE ARTICLE ROLE OF THE ENDOCANNABINOID SYSTEM IN THE DEVELOPMENT OF TOLERANCE TO ALCOHOL
2004Co-Authors: Balapal S. Basavarajappa, Basalingappa L. HungundAbstract:Abstract — The present review evaluates the evidence that the endocannabinoid system plays in the development of tolerance to alcohol. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB 1 receptor), which was activated by ∆ 9-tetrahydrocannabinol ( ∆ 9-THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. Until now, four fatty acid derivatives identified to be arachidonylethanolamide (AEA), 2-arachidonylglycerol (2-AG), 2-arachidonylglycerol ether (noladin ether) and Virodhamine have been isolated from both nervous and peripheral tissues. Both AEA and 2-AG have been shown to mimic the pharmacological and behavioural effects of ∆ 9-THC. The role of the endocannabinoid system in the development of tolerance to alcohol was not known until recently. Recent studies from our laboratory have implicated for the first time a role for the endocannabinoid system in development of tolerance to alcohol. Chronic alcohol treatment has been shown to down-regulate CB 1 receptors and its signal transduction. The observed downregulation of CB 1 receptor function results from the persistent stimulation of the receptors by AEA and 2-AG, the synthesis of which has been shown to be increased by chronic alcohol treatment. The enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid alcohol intake, have significantly reduced CB 1 receptor function in the brain, consistent with other studies in which the CB 1 receptor antagonist SR 141716A has been shown to block voluntary alcohol intake in rodents. Similarly, activation of the CB 1 receptor system promoted alcohol craving, suggesting a role for the C
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SPECIAL ISSUE ARTICLE ROLE OF THE ENDOCANNABINOID SYSTEM IN THE DEVELOPMENT OF TOLERANCE TO ALCOHOL
2004Co-Authors: Balapal S. Basavarajappa, Basalingappa L. HungundAbstract:Abstract — The present review evaluates the evidence that the endocannabinoid system plays in the development of tolerance to alcohol. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB1 receptor), which was activated by ∆9-tetrahydrocannabinol (∆9-THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. Until now, four fatty acid derivatives identified to be arachidonylethanolamide (AEA), 2-arachidonylglycerol (2-AG), 2-arachidonylglycerol ether (noladin ether) and Virodhamine have been isolated from both nervous and peripheral tissues. Both AEA and 2-AG have been shown to mimic the pharmacological and behavioural effects of ∆9-THC. The role of the endocannabinoid system in the development of tolerance to alcohol was not known until recently. Recent studies from our laboratory have implicated for the first time a role for the endocannabinoid system in development of tolerance to alcohol. Chronic alcohol treatment has been shown to down-regulate CB1 receptors and its signal transduction. The observed downregulation of CB1 receptor function results from the persistent stimulation of the receptors by AEA and 2-AG, the synthesis of which has been shown to be increased by chronic alcohol treatment. The enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid alcohol intake, have significantly reduced CB1 receptor function in the brain, consistent with other studies in which the CB1 receptor antagonist SR 141716A has been shown to block voluntary alcohol intake in rodents. Similarly, activation of the CB1 receptor system promoted alcohol craving, suggesting a role for the CB1 receptor gene in excessive alcoho
