Improvement of memory in rodents by the selective CB1 cannabinoid receptor antagonist,SR 141716

Social short-term memory in rodents is based on the recognition of a juvenile by an adult conspecific when the juvenile is presented on two successive occasions. Cannabimimetics are claimed to induce memory deficits in both humans and animals. In the brain, they mainly bind to CB1 receptors for which anandamide is a purported endogenous ligand. SR 141716, a specific antagonist of CB1 receptors, dose-dependently reverses biochemical and pharmacological effects of cannabimimetics. More particularly, it antagonizes the inhibition of hippocampal long-term potentiation induced by WIN 55,212-2 and anandamide, and it increases arousal when given alone. The present experiments study the ability of SR 141716 (from 0.03 to 3 mg/kg SC) to facilitate short-term olfactory memory in the social recognition test in rodents. SR 141716 improved social recognition in a long intertrial paradigm with a threshold dose of 0.1 mg/kg SC. At 1 mg/kg, it antagonized the memory disturbance elicited by retroactive inhibition. Scopolamine (0.06 mg/kg IP) partially reversed its memory-enhancing effect. Moreover, SR 141716 reduced memory deficit in aged rats (0.03–0.1 mg/kg) and mice (0.3–1 mg/kg). As SR 141716 is not known to exhibit any pharmacological activity which is not mediated by CB1 receptors, the results strongly support the concept that blockade of CB1 receptors plays an important role in consolidation of short-term memory in rodents and suggest there may be a role for an endogenous cannabinoid agonist tone (anandaminergic) in forgetting.     

Age-dependent effects of the cannabinoid CB1 antagonist SR141716A on food intake, body weight change, and pruritus in rats

Rationale  The cannabinoid CB1 selective antagonist SR141716A (Rimonabant) has been shown to decrease body weight in laboratory animals and humans. Furthermore, SR141716A can elicit scratching behavior in rodents, a behavior that has been hypothesized to contribute to SR141716A-induced decrease in food intake. Although childhood obesity is a rising health issue, it is unknown whether SR141716A is equipotent at modulating food intake and other CB1-mediated behaviors in younger subjects. Objective  To determine whether CB1 receptor blockade is equipotent at modulating food and water intake, body weight, and scratching behavior, the effect of a range of SR141716A doses on these behaviors in food-restricted postnatal day (P) 18, 28, and 60 male rats was investigated. Brain concentrations of SR141716A were determined in each age group. Results  SR141716A dose- and age-dependently suppressed food and water intake and body weight gain and elicited head scratching, with the most potent effects observed in P18 and P28 rats. Brain concentrations of SR141716A were significantly elevated in P18 rats relative to P28 and P60 rats. SR141716A-elicited head scratching was attenuated by the 5-HT_2A/2C antagonist ketanserin. Conclusions  SR141716A is more potent at modulating food intake and head scratching in very young animals; these differences can be attributed to an increase in brain penetration of SR141716A for P18 but not for P28 and P60 rats. In addition, SR141716-elicited head scratching is modulated by 5HT receptor antagonism and is not a contributing factor to SR141716A's anorectic effects.     

SR141716A诱导大鼠产生与CB1受体激动剂相反的行为模式(英文)

AIM: To examine the acute actions of the CB1cannabinoid receptor antagonist SR141716A [N-piperidino-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-methylpyrazole-3-carbowamide] on typical behavioralpattern of psychoactive cannabinoids in rats.METHODS:At different time after injection the tail-flick response latency,the rectal temperature,thelocomotor activity,and the immobility on a ring as wellas the numbers of rears,self-grooming episodes(lasting 5 s),and fecal pellets were measured.RESULTS:Achte administration of SR141716A(3 mg/kg ip) induced a significant increase inhorizontal locomotor activity assayed by an activitymeter,in stereotypic activity(such as rearing and self-     

Cannabinoid CB(1) antagonist SR 141716A attenuates reinstatement of heroin self-administration in heroin-abstinent rats

Rats with a previous history of heroin self-administration were studied to assess interactions occurring between cannabinoids and opioids in an animal model of reinstatement of heroin-seeking behaviour. Rats were trained to self-administer heroin and after a long-term extinction were primed with one of the following non-contingent non-reinforced drug administrations: saline (or vehicle), heroin, synthetic cannabinoid CB₁ receptor agonists (WIN 55,212-2 or CP 55,940), opioid antagonist (naloxone) or CB₁ antagonist (SR 141716A), alone or in combination. After primings, lever-pressing activity was recorded and compared to those observed during previous phases of training and extinction. Results of this study showed that (i) priming injections of heroin (0.1 mg/kg) as well as CB₁ agonists WIN 55,212-2 (0.15 or 0.30 mg/kg) and CP 55,940 (0.05 or 0.1 mg/kg) completely restore heroin-seeking behaviour; (ii) primings of naloxone (1 mg/kg) and SR 141716A (0.3 mg/kg) had no effect when administered alone; (iii) heroin-induced reinstatement was fully prevented by pre-treatment with either naloxone or SR 141716A; (iv) pre-treatment with SR 141716A significantly reduced WIN 55,212-2 and CP 55,940 priming effects. These results suggest that cannabinoid CB₁ receptors play an important role in the mechanisms underlying relapse to heroin-seeking and depict CB₁ antagonists as possible therapeutic agents for use in the prevention of relapse to heroin abuse.     

The cannabinoid CB1 receptor antagonist SR141716A attenuates the memory impairment produced by Δ9-tetrahydrocannabinol or anandamide

 The administration of Δ⁹-tetrahydrocannabinol (THC), the principle psychoactive ingredient in marijuana, or the endogenous cannabinoid anandamide, has been shown to impair recent memory. The purpose of the present investigation was to determine if the cannabinoid CB₁ receptor antagonist SR141716A could attenuate THC- or anandamide-induced memory impairment, and to assess the effects on memory of SR141716A alone. Memory was assessed in rats well-trained in a two-component instrumental discrimination task, consisting of a conditional discrimination, and a non-match-to-position to assess recent or working memory. SR141716A (0.0–2.0 mg/kg) had no effect on either the conditional discrimination or the non-match-to-position. However, SR141716A (0.0–2.0 mg/kg) attenuated the memory impairment produced by THC (2.0 or 4.0 mg/kg) as indexed by an enhancement of performance in the non-match-to-position. When administered to rats pretreated with anandamide (2.0 mg/kg), SR141716A (0.0–2.5 mg/kg) impaired performance in the conditional discrimination at the highest dose. This was interpreted as a deficit in some capacity unrelated to memory (e.g., motor impairment). However, lower doses of SR141716A (0.1 and 0.5 mg/kg) attenuated the anandamide-induced impairment of performance in the non-match-to-position without affecting the conditional discrimination. This is the first report that the memory impairment produced by anandamide can be attenuated by a cannabinoid antagonist; results suggest that anandamide-induced memory disruption is mediated by CB₁ receptors. Received: 25 June 1997 / Final version: 7 February 1998     

Paraventricular hypothalamic CB(1) cannabinoid receptors are involved in the feeding stimulatory effects of Delta(9)-tetrahydrocannabinol

BACKGROUND/AIMS: The paraventricular nucleus of the hypothalamus (PVN) is the target of converging orexigenic and anorexigenic pathways originating from various hypothalamic sites and is, therefore, considered to be the chief site mediating hypothalamic regulation of energy homeostasis. Although a large body of evidence suggests that central CB(1) cannabinoid receptors mediate food intake, it is not clear whether PVN CB(1) receptors are involved in the control of feeding behaviour. The present study therefore examined the effects of intra-PVN administration of Delta(9)-tetrahydrocannabinol (THC) and the cannabinoid receptor antagonist SR 141716 on feeding. METHODS: After being habituated to the test environment and injection procedure, sated rats were injected with SR 141716 (0.03-3.0 microg, Experiment 1) alone or in combination with THC (5.0 microg, Experiment 2) into the PVN. Food intake and locomotor activity then were recorded for 120 min. RESULTS: Intra-PVN administration of THC produced a significant increase in food intake that was attenuated by SR 141716. Administration of SR 141716 alone did not affect feeding. Locomotor activity was not significantly affected by any drug treatments, suggesting that effects on feeding were not due to a non-specific reduction in motivated behaviour. These findings suggest an important role for PVN cannabinoid signalling in mediating THC-induced feeding behaviour. These results also demonstrate that the blockade of PVN CB(1) receptors alone is insufficient to reduce baseline feeding behaviour under these conditions.     

SR 141716, a CB1 cannabinoid receptor antagonist, selectively reduces sweet food intake in marmoset

SR 141716 (1 and 3 mg/kg p.o.), a selective central (CB1) cannabinoid receptor antagonist, selectively reduced feeding of a very highly palatable cane-sugar mixture in marmosets. In contrast, standard primate pellet intake was not modified at the lower dose, but was slightly increased (+29%;p < 0.01) by the higher dose of SR 141716. These results are in agreement with the hypothesis that endogenous cannabinoid systems are involved in the modulation of the appetitive value of food.     

Selective inhibition of sucrose and ethanol intake by SR 141716, an antagonist of central cannabinoid (CB1) receptors

SR 141716, a selective central CB1 cannabinoid receptor antagonist, markedly and selectively reduces sucrose feeding and drinking as well as neuropeptide Y-induced sucrose drinking in rats. SR 141716 also decreases ethanol consumption in C57BL/6 mice. In contrast, blockade of CB1 receptors only marginally affects regular chow intake or water drinking. The active doses of SR 141716 (0.3–3 mg/kg) are in the range known to antagonize the characteristic effects induced by cannabinoid receptor agonists. These results suggest for the first time that endogenous cannabinoid systems may modulate the appetitive value of sucrose and ethanol, perhaps by affecting the activity of brain reward systems. Received: 31 January 1997/Final version: 16 March 1997     

大麻酚类受体拮抗剂SR141716A减少乙醇蒸气室中大鼠的自发反应性乙醇自身给药行为(英文)

AIM: To study the potential role of dependence statuson CB_1-mediated blockade of ethanol self-administra-tion. METHODS: We examined the effects of thecannabinoid antagonist SR141716A (0, 0.03, 0.3,and 3 mg/kg) on pperant ethanol (10 ％ v/v) self-administration in male Wistar rats that were madeethanol-dependent by chronic (14 d ) exposure toethanol vapor-chambers or exposed to air in identicalvapor chambers.RESULTS: Dependent animalsresponded more for ethanol than did air controlnondependent tats. The acute administration of a 3mg/kg dose of SR141716A almost suppressed ethanolself-administration ouly in ethanol dependent animals.     

Evidence for inverse agonism of SR141716A at human recombinant cannabinoid CB1 and CB2 receptors

The cannabinoid receptor antagonist SR141716A has been suggested to be an inverse agonist at CB₁ receptors in some isolated intact tissues. We found that the basal incorporation of [³⁵S]-GTPγS in Chinese hamster ovary cells expressing human recombinant CB₁ and CB₂ receptors was inhibited by SR141716A (mean pEC₅₀s 8.26 and 6.00, respectively), whereas cannabinol (10 μM) had no significant effect at hCB₁ receptors but inhibited the binding at hCB₂ receptors. As cannabinol had no effect on basal [³⁵S]-GTPγS binding at hCB₁ at a concentration 100 fold higher than its binding affinity (K_i=0.1 μM), we conclude that endogenous cannabinoid receptor agonists are not a confounding factor and suggest the actions of SR141716A at the hCB₁ receptor, and the actions of SR141716A and cannabinol at the hCB₂ receptor, are due to inverse agonism.     

Conformational characteristics of the interaction of SR141716A with the CB1 cannabinoid receptor as determined through the use of conformationally constrained analogs

Interest in cannabinoid pharmacology increased dramatically upon the identification of the first cannabinoid receptor (CB1) in 1998 and continues to expand as additional endocannabinoids and cannabinoid receptors are discovered. Using CB1 receptor (CB1R) systems, medicinal chemistry programs began screening libraries searching for cannabinoid ligands, ultimately leading to the discovery of the first potent cannabinoid receptor antagonist, SR141716A (Rimonabant). Its demonstrated efficacy in treating obesity and facilitating smoking cessation, among other impressive pharmacological activities, has furthered the interest in cannabinoid receptor antagonists as therapeutics, such that the number of patents and publications covering this class of compounds continues to grow at an impressive rate. At this time, medicinal chemistry approaches including combinatorial chemistry, conformational constraint, and scaffold hopping are continuing to generate a large number of cannabinoid antagonists. These molecules provide an opportunity to gain insight into the 3-dimensional structure-activity relationships that appear crucial for CB1R-ligand interaction. In particular, studies in which conformational constraints have been imposed on the various pyrazole ring substituents of SR141716A provide a direct opportunity to characterize changes in conformation/conformational freedom within a single class of compounds. While relatively few conformationally constrained molecules have been synthesized to date, the structure-activity information is often more readily interpreted than in studies where entire substituents are replaced. Thus, it is the focus of this mini-review to examine the structural properties of SR141716A, and to use conformationally constrained molecules to illustrate the importance of conformation and conformational freedom to CB1R affinity, selectivity, and efficacy.     

Inhibition of long-term potentiation in rat hippocampal slices by anandamide and WIN55212-2: reversal by SR141716 A,a selective antagonist of CB1 cannabinoid receptors

It has been reported previously that ⁹-tetrahydrocannabinol and the synthetic cannabinoid agonist HU-210 [(–)-11-OH-⁸-dimethylheptyl tetrahydrocannabinol] prevent long-term potentiation (LTP) induction in rat hippocampal slices. In this study we confirm that both WIN55212-2 {R-(+)-(2,3-dihydro-5-methyl-3-[{4-morpholinyl} methyl] pyrol [1,2,3-de]-1,4-benzoxazin-6-yl) (1-naphtalenyl) methanone monomethanesulphonate} (3 and 10 M), another synthetic cannabinoid agonist, and anandamide (10 M), considered to be the endogenous ligand of cannabinoid receptors, inhibit LTP formation in the Schaffer collateral-CA1 field complex. In addition, we show that SRt417l6A [N-(piperidin-1-yl)-5-(4-chlorophenyl)-1-(2, 4-dichlorophenyl)-4-methyl-lH-pyrazole-3-carboxamide hydrochloride] at 0.1–10 M, a potent and selective antagonist of CB1 cannabinoid receptors, concentration-dependently reversed the inhibition of LTP induced by both WIN55212-2 and anandamide. These data indicate that cannabinoid receptor agonists inhibit hippocampal LTP formation through CB1 receptor activation and that anandamide could be a candidate for an endogenous neuromessenger involved in memory processes.     

The novel cannabinoid CB1 antagonist AM6545 suppresses food intake and food-reinforced behavior

Drugs that interfere with cannabinoid CB1 transmission suppress food-motivated behaviors, and may be useful clinically as appetite suppressants. However, there may also be undesirable side effects (e.g., nausea, malaise, anxiety, and depression) that are produced by the current generation of CB1 inverse agonists such as rimonabant and taranabant. For that reason, it is important to continue research on novel cannabinoid antagonists. The present studies examined the effects of the novel compound AM6545, which is a neutral antagonist of CB1 receptors that is thought to have relatively poor penetrability into the central nervous system. Intraperitoneal administration of AM6545 significantly reduced food-reinforced operant responding at doses of 4.0, 8.0 and 16.0 mg/kg. AM6545 also produced a strong suppression of the intake of high-carbohydrate and high-fat diets in the same dose range, but only produced a mild suppression of lab chow intake at the highest dose (16.0 mg/kg). Although AM6545 did not affect food handling, it did reduce time spent feeding and feeding rate. Taken together, these results suggest that AM6545 is a compound that warrants further study as a potential appetite suppressant drug.     

The cannabinoid CB1 receptor antagonists rimonabant (SR141716) and AM251 directly potentiate GABA(A) receptors

BACKGROUND AND PURPOSE

Rimonabant (SR141716) and the structurally related AM251 are widely used in pharmacological experiments as selective cannabinoid receptor CB₁ antagonists / inverse agonists. Concentrations of 0.5–10 µM are usually applied in in vitro experiments. We intended to show that these drugs did not act at GABA_A receptors but found a significant positive allosteric modulation instead.

EXPERIMENTAL APPROACH

Recombinant GABA_A receptors were expressed in Xenopus oocytes. Receptors were exposed to AM251 or rimonabant in the absence and presence of GABA. Standard electrophysiological techniques were used to monitor the elicited ionic currents.

KEY RESULTS

AM251 dose-dependently potentiated responses to 0.5 µM GABA at the recombinant α₁β₂γ₂ GABA_A receptor with an EC₅₀ below 1 µM and a maximal potentiation of about eightfold. The Hill coefficient indicated that more than one binding site for AM251 was located in this receptor. Rimonabant had a lower affinity, but a fourfold higher efficacy. AM251 potentiated also currents mediated by α₁β₂, α_xβ₂γ₂ (x = 2,3,5,6), α₁β₃γ₂ and α₄β₂δ GABA_A receptors, but not those mediated by α₁β₁γ₂. Interestingly, the CB₁ receptor antagonists {"type":"entrez-nucleotide","attrs":{"text":"LY320135","term_id":"1257555575","term_text":"LY320135"}}LY320135 and O-2050 did not significantly affect α₁β₂γ₂ GABA_A receptor-mediated currents at concentrations of 1 µM.

CONCLUSIONS AND IMPLICATIONS

This study identified rimonabant and AM251 as positive allosteric modulators of GABA_A receptors. Thus, potential GABAergic effects of commonly used concentrations of these compounds should be considered in in vitro experiments, especially at extrasynaptic sites where GABA concentrations are low.

LINKED ARTICLES

This article is part of a themed section on Cannabinoids in Biology and Medicine. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2012.165.issue-8. To view Part I of Cannabinoids in Biology and Medicine visit http://dx.doi.org/10.1111/bph.2011.163.issue-7     

Effect of the cannabinoid CB1 receptor antagonist SR-141716A on ethanol self-administration and ethanol-seeking behaviour in rats

Rationale It has been suggested that endocannabinoid mechanisms are involved in the control of ethanol consumption. Objectives The aims of the present study were (1) to evaluate the role of the endocannabinoid system in the control of operant ethanol self-administration and in the reinstatement of ethanol seeking, when induced by stress or conditioned stimuli and (2) to offer new insights on the specificity of such a role. Methods Rats were administered intraperitoneally with the selective cannabinoid CB₁ receptor antagonist, SR-141716A, 30 min before operant self-administration or reinstatement sessions. Two schedules of reinforcement, the fixed-ratio 1 (FR1) and the progressive ratio (PR), were used to study 10% (w/v) alcohol and 5.0% sucrose self-administration. NaCl (2% w/v) intake in sodium-depleted rats was studied only under the FR1 program. Results Treatment with SR-141716A (0.3–3.0 mg/kg) significantly attenuated FR1 alcohol self-administration and lowered the break point for ethanol under PR. SR-141716A also markedly inhibited the reinstatement of alcohol seeking elicited by presentation of cues predictive of drug availability. Conversely, the cannabinoid antagonist did not prevent the reinstatement of alcohol seeking induced by foot-shock stress. Lever pressing for sucrose under FR1 and PR schedules was also significantly decreased by SR-141716A treatment, whereas the drug modestly and only at the highest dose decreased 2% NaCl self-administration. Conclusions Results emphasize that endocannabinoid mechanisms play a major role in the control of ethanol self-administration and in the reinstatement of conditioned ethanol seeking. However, these effects extend to the control of operant behaviours motivated by natural rewards (i.e. sucrose). On the other hand, SR-141716A only weakly reduces NaCl self-administration in sodium-depleted rats, in which salt intake is largely controlled by homeostatic mechanisms. Overall, these observations demonstrate that the inhibition of operant behaviour following blockade of CB₁ receptors by SR-141716A is linked to a reduction of reward-related responding and is not related to drug-induced motor deficits.     

The CB1 antagonist rimonabant (SR141716) blocks cue-induced reinstatement of cocaine seeking and other context and extinction phenomena predictive of relapse

Cannabinoid CB1 antagonists decrease self-administration of palatable food and several abused drugs in animals and modulate extinction of conditioned fear responses. Less is known, however, about whether and how CB1 antagonists might modulate the extinction of appetitive behavior. Therefore, this study examined the effects of the CB1 receptor antagonist rimonabant (SR141716) during extinction of responding maintained either by cocaine or by palatable foods (corn oil or Ensure), as well as responding elicited by stimulus cues that had been paired with the presentation of cocaine (i.e., cue-induced reinstatement) or a prime (presentation of cocaine or food). The effect of rimonabant on high rate responding in water-deprived mice trained to self-administer water was also examined. In mice self-administering cocaine, rimonabant attenuated cue-induced reinstatement of cocaine self-administration, the initial burst of responding during cocaine extinction and responding during spontaneous recovery. In mice self-administering corn oil, rimonabant decreased responding during extinction and also attenuated responding that had been reinstated by a priming presentation of corn oil. Moreover, mice treated with rimonabant required fewer daily sessions to reach criterion for extinction of cocaine-maintained responding than vehicle treated mice. Also, rimonabant had no effect on the rate of operant responding in mice trained to respond for water under an FR5 schedule of reinforcement. Taken together, these data suggest that in addition to attenuating the primary reinforcing effects of both palatable foods and drugs of abuse, CB1 receptor antagonism can attenuate context and cue reactivity during extinction learning and potentially enhance extinction learning in this way.     

Milk intake and survival in newborn cannabinoid CB1 receptor knockout mice: evidence for a "CB3" receptor

Cannabinoids, whether plant-derived, synthetic or endogenous, have been shown to stimulate appetite in the adult organism. We have reported previously that cannabinoid receptors play a critical role during the early suckling period: The selective cannabinoid CB(1) receptor antagonist N-(piperidiny-1-yl)-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-methyl-1H-pyrazole-3-carboxamide (SR141617A) permanently prevented milk ingestion in a dose-dependent manner, when administered to (Sabra, albino) mouse pups, within 1 day of birth. As a consequence, these pups died within the first week of life. We now generalize this finding to a different strain of mice (C57BL/6). Further, we show that cannabinoid CB(1) receptor blockade (20 mg/kg SR141716A) must occur within 24 h after birth as injection of SR141716A into 2- or 5-day-old pups had a much smaller effect or no effect at all, respectively. Cannabinoid CB(1) receptor knockout mice did not ingest milk on the first day of life, similarly to SR141716A-treated normal pups, as measured by the appearance of "milkbands". However, the knockout pups started to display milkbands from day 2 of life. Survival rates of cannabinoid CB(1) receptor knockout mice were affected significantly, but to a lesser extent than normal pups, by the administration of SR141716A. Daily administration of the endocannabinoid 2-arachidonoyl glycerol, or the synthetic agonists (R)-(+)-[2,3-dihydro-5-methyl-3-(4-morpholinylmethyl)pyrrolo[1,2,3-de]-1,4-benzoxazin-6-yl]-1-naphthalenylmethanone (WIN55,212-2, 5 mg/kg) or (-)-cis-3-[2-Hydroxy4-(1,1-dimethylheptyl) phenyl]-trans-4-(3-hydroxypropyl)cyclohexanol (CP55,940, 5 or 20 mg/kg) did not promote survival or weight gain in CB(1)(-/-) pups. Our data support previous evidence for a critical role of cannabinoid CB(1) receptors for the initiation of suckling. Further, the present observations support the existence of an unknown cannabinoid receptor, with partial control over milk ingestion in newborns. Our data also suggest that the CB(1)(-/-) neonates possess a compensatory mechanism which helps them overcome the lack of cannabinoid CB(1) receptors.     

The actions of the cannabinoid receptor antagonist,SR 141716A,in the rat isolated mesenteric artery

1. The actions of the cannabinoid receptor antagonist, SR 141716A, were examined in rat isolated mesenteric arteries. At concentrations greater than 3 μM, it caused concentration-dependent, but endothelium-independent, relaxations of both methoxamine- and 60 mM KCl-precontracted vessels.
2. SR 141716A (at 10 μM, but not at 1 μM) inhibited contractions to Ca²⁺ in methoxamine-stimulated mesenteric arteries previously depleted of intracellular Ca²⁺ stores. Neither concentration affected the phasic contractions induced by methoxamine in the absence of extracellular Ca²⁺.
3. SR 141716A (10 μM) caused a 130 fold rightward shift in the concentration-response curve to levcromakalim, a K⁺ channel activator, but had no effect at 1 μM.
4. SR 141716A (10 μM) attenuated relaxations to NS 1619 (which activates large conductance, Ca²⁺-activated K⁺ channels; BK_Ca). The inhibitory effect of SR 141716A on NS 1619 was not significantly different from, and was not additive with, that caused by a selective BK_Ca inhibitor, iberiotoxin (100 nM). SR 141716A (1 μM) did not effect NS 1619 relaxation.
5. SR 141716A (10 μM) had no effect on relaxations to the nitric oxide donor S-nitroso-N-acetylpenicillamine, or relaxations to carbachol in the presence of 25 mM KCl.
6. The results show that, at concentrations of 10 μM and above, SR 141716A causes endothelium-independent vasorelaxation by inhibition of Ca²⁺ entry. It also inhibits relaxations mediated by K⁺ channel activation. This suggests that such concentrations of SR 141716A are not appropriate for investigation of cannabinoid receptor-dependent processes.

     

Intravenous self-administration of the cannabinoid CB1 receptor agonist WIN 55,212-2 in rats

RATIONALE: Delta9-tetrahydrocannabinol (Delta9-THC), the main psychoactive ingredient of marijuana, as well as synthetic cannabinoid (CB1) receptor agonists, has led to negative or equivocal results when tested with the intravenous self-administration procedure, the best validated behavioural model for evaluating abuse liability of drugs in experimental animals. We recently reported, however, that the synthetic CB1 receptor agonist WIN 55,212-2 is intravenously self-administered by drug-naive mice and that its self-administration is blocked by the cannabinoid CB1 receptor antagonist SR 141716A. OBJECTIVE: To assess a reliable model of cannabinoid intravenous self-administration in rats. Long Evans male rats were allowed the opportunity to self-administer WIN 55,212-2 at doses ranging from 6.25 to 50 microg/kg per injection, under a fixed-ratio 1 (FR1) schedule of reinforcement and nose-pokes as the operant responses. The effect of either a change in the unit drug dose available or a pretreatment with the specific CB1 receptor antagonist SR 141716A were then investigated (maintenance phase). Finally, the extinction of the self-administration behaviour was evaluated. RESULTS: Response rate depended on the drug dose available, with maximum rates occurring at 12.5 microg/kg per injection. Response rate increased following pretreatment with the specific CB1 receptor antagonist, SR 141716A. Moreover, operant behaviour rapidly extinguished following both the substitution of saline or vehicle for cannabinoid and the disconnection of the drug delivery pumps. CONCLUSION: Rats will intravenously self-administer the synthetic CB1 receptor agonist WIN 55,212-2 under specific experimental conditions, thus allowing further investigation of the neurobiological mechanisms underlying cannabinoid-taking behaviour.     

The cannabinoid CB1 antagonist AM 251 produces food avoidance and behaviors associated with nausea but does not impair feeding efficiency in rats

Rationale A growing body of evidence suggests that cannabinoid CB1 receptor antagonists have potential therapeutic utility as appetite suppressants. However, the specific mechanisms underlying the reduction in food intake produced by these drugs are not well understood.Objective Considering the known antiemetic and motor-suppressive effects of CB1 agonists, the present studies were conducted to determine if the reductions in food intake induced by the CB1 antagonist AM 251 could result from nausea or impairments in intake-related motor control, rather than solely from appetite suppression.Methods Three experiments were conducted to examine the effects of AM 251 (2.0, 4.0, or 8.0 mg/kg or vehicle) on detailed parameters of food intake, on the development of conditioned taste avoidance, and on taste reactivity.Results In the first experiment, acute administration of AM 251 dose-dependently decreased food intake; nevertheless, feeding rate (grams consumed per time spent eating) and food handling were unaffected, which suggests that food intake was not reduced because of severe motor impairments. In the second experiment, AM 251 dose-dependently reduced intake of a flavor with which it had previously been associated, indicating that conditioned taste avoidance had developed. Lastly, AM 251 was found to induce conditioned rejection reactions in a dose-dependent manner.Conclusions The CB1 antagonist AM 251 may reduce food intake in part by inducing nausea or malaise, but not because of incoordination or motor slowing related to feeding.