The (–)-Borneol Effect on Addiction/Abstinence by Morphine in Mice

Drugs and Drug Candidates Pub Date : 2023-06-09 DOI:10.3390/ddc2020025

Maurício P. M. Amaral, Melquisedeque da Rocha Viana, Altamiro Teixeira Osório, Luciano da Silva Lopes, F. P. M. D. Amaral, M. Lucarini, A. Durazzo, D. Arcanjo, R. C. M. Oliveira

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Abstract

Opioids such as morphine are the first choice in acute and chronic pain treatment. However, they lead to addiction. Several studies have searched (i) to find a molecule that can replace morphine use or (ii) to reduce its adverse effects. This work aimed to evaluate whether (–)-Borneol [(–)-BOR], a bicyclic monoterpene, in doses of 25, 50, and 100 mg/kg (i.p.), has an antiaddictive effect on morphine (5 mg/kg, i.p.) and reduces its withdrawal symptoms precipitated by naloxone (8 mg/kg, i.p.) in Swiss mice. Furthermore, the (–)-BOR genotoxic potential was also investigated by the comet assay. The antiaddictive effect of (–)-BOR was evaluated by the conditioned preference place (CPP). The CPP was induced by morphine administration during the conditioning phase. The effects of (–)-BOR on the rewarding characteristics of morphine were tested in mice with the administration of (–)-BOR, naloxone, or vehicle (NaCl 0.9%), 30 min before morphine. This work also investigated the (–)-BOR effect on morphine withdrawal symptoms precipitated by naloxone. Morphine withdrawal symptoms were induced by administering morphine twice daily for 5 days, precipitated by naloxone administration on the sixth day. The effect of (–)-BOR on reducing morphine withdrawal symptoms was evaluated in mice that received (–)-BOR before daily morphine administration. Finally, the comet assay was performed to assess the DNA damage degree caused by the (–)-BOR (100 mg/kg, i.p.) administration. The comet assay was performed on peripheral blood taken from the tail of each animal. Cyclophosphamide (50 mg/kg, i.p.) was used to induce DNA damage. After starting the protocol, analyses were performed for 4 h (acute effect) and 24 h (repair effect). The (–)-BOR (100 mg/kg, i.p.) significantly attenuated (*** p < 0.001) the acquisition of morphine-induced CPP and reduced only the jumping behavior in the morphine withdrawal model. The best-studied dose was 100 mg/kg, being evaluated, then, in the comet assay. (–)-BOR at 100 mg/kg did not show the genotoxic effect when compared with the cyclophosphamide group (CYCLO, 50 mg/kg, i.p.) after 4 h or 24 h, a period that corresponded to the repair time of DNA fragmentation. The study showed that (–)-BOR attenuated the acquisition of CPP by morphine and made opioid withdrawal milder. In the comet assay, although (–)-BOR caused DNA damage, this damage was significantly less than the damage by CYCLO, at either 4 h or 24 h after the treatments.

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(-)-冰片对吗啡成瘾/戒断小鼠的影响

阿片类药物如吗啡是治疗急慢性疼痛的首选药物。然而，它们会导致上瘾。有几项研究寻求(1)找到一种可以替代吗啡使用的分子或(2)减少其不良反应。这项工作旨在评估(-)-冰片[(-)- bor]，一种双环单萜，在剂量为25、50和100 mg/kg (i.p)时，是否对吗啡(5 mg/kg, i.p)具有抗成瘾作用，并减轻瑞士小鼠纳洛酮(8 mg/kg, i.p)引起的戒断症状。此外，(-)- bor基因毒性也通过彗星试验进行了研究。通过条件偏好位置(CPP)评价(-)- bor的抗成瘾作用。在条件反射阶段吗啡诱导CPP。用(-)- bor、纳洛酮或对照剂(NaCl 0.9%)分别给药30 min，观察(-)- bor对吗啡奖赏特性的影响。本研究还探讨了(-)- bor对纳洛酮诱发的吗啡戒断症状的影响。吗啡戒断症状由每日两次吗啡引起，连续5天，第6天纳洛酮缓解。在每日给药前接受(-)- bor的小鼠中，评估(-)- bor对减轻吗啡戒断症状的作用。最后，采用彗星法评估(-)- bor (100 mg/kg, i.p.)给药对DNA的损伤程度。彗星试验对每只动物尾部的外周血进行。环磷酰胺(50 mg/kg, ig)诱导DNA损伤。方案启动后，分析4小时(急性效应)和24小时(修复效应)。(-)- bor (100 mg/kg, i.p)显著减弱吗啡诱导CPP的获得(*** p < 0.001)，仅减少吗啡戒断模型中的跳跃行为。研究最好的剂量是100 mg/kg，然后在彗星试验中进行评估。(-)与环磷酰胺组(cyclophosphamide, 50 mg/kg, i.p.)相比，100 mg/kg - bor在4 h或24 h (DNA片段修复时间)后没有表现出遗传毒性作用。研究表明(-)- bor能减弱吗啡对CPP的获取，减轻阿片类戒断反应。在彗星试验中，尽管(-)- bor引起了DNA损伤，但在处理后4 h或24 h，这种损伤明显小于CYCLO的损伤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Drugs and Drug Candidates

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