使用大鼠药物辨别实验方案区分低效和高效能CB1受体激动剂。
Differentiation between low- and high-efficacy CB1 receptor agonists using a drug discrimination protocol for rats.
作者信息
Järbe Torbjörn U C, LeMay Brian J, Halikhedkar Aneetha, Wood JodiAnne, Vadivel Subramanian K, Zvonok Alexander, Makriyannis Alexandros
机构信息
Center for Drug Discovery (CDD), Department of Pharmaceutical Sciences, Northeastern University, 116 Mugar Hall, 360 Huntington Ave, Boston, MA, 02115, USA,
出版信息
Psychopharmacology (Berl). 2014 Feb;231(3):489-500. doi: 10.1007/s00213-013-3257-8. Epub 2013 Sep 5.
RATIONALE
The "subjective high" from marijuana ingestion is likely due to Δ(9)-tetrahydrocannabinol (THC) activating the central cannabinoid receptor type 1 (CB1R) of the endocannabinoid signaling system. THC is a weak partial agonist according to in vitro assays, yet THC mimics the behavioral effects induced by more efficacious cannabinergics. This distinction may be important for understanding similarities and differences in the dose-effect spectra produced by marijuana/THC and designer cannabimimetics ("synthetic marijuana").
OBJECTIVE
We evaluated if drug discrimination is able to functionally detect/differentiate between a full, high-efficacy CB1R agonist [(±)AM5983] and the low-efficacy agonist THC in vivo.
MATERIALS AND METHODS
Rats were trained to discriminate between four different doses of AM5983 (0.10 to 0.56 mg/kg), and vehicle and dose generalization curves were determined for both ligands at all four training doses of AM5983. The high-efficacy WIN55,212-2 and the lower-efficacy (R)-(+)-methanandamide were examined at some AM5983 training conditions. Antagonism tests involved rimonabant and WIN55,212-2 and AM5983. The separate (S)- and (R)-isomers of (±)AM5983 were tested at one AM5983 training dose (0.30 mg/kg). The in vitro cyclic adenosine monophosphate (cAMP) assay examined AM5983 and the known CB1R agonist CP55,940.
RESULTS
Dose generalization ed50 values increased as a function of the training dose of AM5983, but more so for the partial agonists. The order of potency was (R)-isomer > (±)AM5983 > (S)-isomer and AM5983 > WIN55,212-2 ≥ THC > (R)-(+)-methanandamide. Surmountable antagonism of AM5983 and WIN55,212-2 occurred with rimonabant. The cAMP assay confirmed the cannabinergic nature of AM5983 and CP55,940.
CONCLUSIONS
Drug discrimination using different training doses of a high-efficacy, full CB1R agonist differentiated between low- and high-efficacy CB1R agonists.
原理
吸食大麻产生的“主观快感”可能是由于Δ(9)-四氢大麻酚(THC)激活了内源性大麻素信号系统的中枢1型大麻素受体(CB1R)。根据体外试验,THC是一种弱部分激动剂,但它能模拟更有效的大麻素类药物诱导的行为效应。这种区别对于理解大麻/THC和合成大麻素类似物(“合成大麻”)产生的剂量效应谱的异同可能很重要。
目的
我们评估了药物辨别是否能够在功能上检测/区分体内的高效CB1R激动剂[(±)AM5983]和低效激动剂THC。
材料与方法
训练大鼠区分四种不同剂量的AM5983(0.10至0.56毫克/千克),并在所有四种AM5983训练剂量下测定两种配体的溶剂和剂量泛化曲线。在一些AM5983训练条件下检测了高效的WIN55,212-2和低效的(R)-(+)-甲硫基大麻酰胺。拮抗试验涉及利莫那班、WIN55,212-至2和AM5983。在一个AM5983训练剂量(0.30毫克/千克)下测试了(±)AM5983单独的(S)-和(R)-异构体。体外环磷酸腺苷(cAMP)试验检测了AM5983和已知的CB1R激动剂CP55,940。
结果
剂量泛化ed50值随AM5983训练剂量的增加而增加,但部分激动剂的增加更为明显。效价顺序为(R)-异构体>(±)AM5983>(S)-异构体,且AM5983>WIN55,212-2≥THC>(R)-(+)-甲硫基大麻酰胺。利莫那班对AM5983和WIN55,212-2产生了可克服的拮抗作用。cAMP试验证实了AM5983和CP55,940的大麻素特性。
结论
使用不同训练剂量的高效、完全CB1R激动剂进行药物辨别可区分低效和高效CB1R激动剂。
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