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AM1710 的药理学特性研究,一种潜在的大麻素 CB2 激动剂,属于大麻内酯类:具有镇痛作用而无中枢神经系统副作用。

Pharmacological characterization of AM1710, a putative cannabinoid CB2 agonist from the cannabilactone class: antinociception without central nervous system side-effects.

机构信息

Program in Neuroscience, Biomedical and Health Sciences Institute, University of Georgia, Athens, GA, United States.

出版信息

Pharmacol Biochem Behav. 2011 Jun;98(4):493-502. doi: 10.1016/j.pbb.2011.02.024. Epub 2011 Mar 5.

DOI:10.1016/j.pbb.2011.02.024
PMID:21382397
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3089437/
Abstract

Cannabinoid CB(2) agonists produce antinociception without central nervous system (CNS) side-effects. This study was designed to characterize the pharmacological and antinociceptive profile of AM1710, a CB(2) agonist from the cannabilactone class of cannabinoids. AM1710 did not exhibit off-target activity at 63 sites evaluated. AM1710 also exhibited limited blood brain barrier penetration. AM1710 was evaluated in tests of antinociception and CNS activity. CNS side-effects were evaluated in a modified tetrad (tail flick, rectal temperature, locomotor activity and rota-rod). Pharmacological specificity was established using CB(1) (SR141716) and CB(2) (SR144528) antagonists. AM1710 (0.1-10mg/kg i.p.) produced antinociception to thermal but not mechanical stimulation of the hindpaw. AM1710 (5mg/kg i.p.) produced a longer duration of antinociceptive action than the aminoalkylindole CB(2) agonist (R,S)-AM1241 (1mg/kg i.p.) at maximally antinociceptive doses. Antinociception produced by the low (0.1mg/kg i.p.) dose of AM1710 was blocked selectively by the CB(2) antagonist SR144528 (6mg/kg i.p.), whereas antinociception produced by the high dose of AM1710 (5mg/kg i.p.) was blocked by either SR144528 (6mg/kg i.p.) or SR141716 (6mg/kg i.p.). AM1710 did not produce hypoactivity, hypothermia, tail flick antinociception, or motor ataxia when evaluated in the tetrad at any dose. In conclusion, AM1710, a CB(2)-preferring cannabilactone, produced antinociception in the absence of CNS side-effects. Thus, any CB(1)-mediated antinociceptive effects of this compound may be attributable to peripheral CB(1) activity. The observed pattern of pharmacological specificity produced by AM1710 is consistent with limited blood brain barrier penetration of this compound and absence of CNS side-effects.

摘要

大麻素 CB(2) 激动剂在不产生中枢神经系统 (CNS) 副作用的情况下产生镇痛作用。本研究旨在描述 AM1710 的药理学和镇痛特征,AM1710 是一种来自大麻素类的大麻素 CB(2) 激动剂。AM1710 在评估的 63 个靶点上没有表现出脱靶活性。AM1710 也表现出有限的血脑屏障穿透能力。AM1710 用于评估镇痛和 CNS 活性的测试。CNS 副作用在改良四联体(尾巴摆动、直肠温度、运动活性和旋转棒)中进行评估。使用 CB(1)(SR141716)和 CB(2)(SR144528)拮抗剂确定了药物的特异性。AM1710(0.1-10mg/kg 腹腔注射)对热刺激但不对机械刺激后爪产生镇痛作用。在最大镇痛剂量下,AM1710(5mg/kg 腹腔注射)产生的镇痛作用持续时间长于氨基烷基吲哚 CB(2) 激动剂(R,S)-AM1241(1mg/kg 腹腔注射)。AM1710 的低剂量(0.1mg/kg 腹腔注射)产生的镇痛作用被 CB(2) 拮抗剂 SR144528(6mg/kg 腹腔注射)选择性阻断,而 AM1710 的高剂量(5mg/kg 腹腔注射)产生的镇痛作用被 SR144528(6mg/kg 腹腔注射)或 SR141716(6mg/kg 腹腔注射)阻断。在任何剂量下,AM1710 在四联体中均未产生活动减少、体温过低、尾巴摆动镇痛或运动共济失调。总之,AM1710 是一种 CB(2) 偏好的大麻内酯,在没有 CNS 副作用的情况下产生镇痛作用。因此,该化合物的任何 CB(1) 介导的镇痛作用都可能归因于外周 CB(1) 活性。AM1710 产生的药理学特异性模式与该化合物的有限血脑屏障穿透能力和缺乏 CNS 副作用一致。

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2
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3
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AAPS J. 2009 Mar;11(1):39-44. doi: 10.1208/s12248-008-9075-y. Epub 2009 Jan 29.
4
Modulation of anxiety by acute blockade and genetic deletion of the CB(1) cannabinoid receptor in mice together with biogenic amine changes in the forebrain.通过急性阻断和基因敲除小鼠CB(1)大麻素受体以及前脑生物胺变化对焦虑进行调节。
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5
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6
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