验证药物-非药物选择程序以模拟大鼠使用阿片类药物的适应不良行为分配。

IF 3.1 3区 医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Setareh Azizzadeh, Milad Rahimpour, Kamran Rakhshan, Bahador Makkiabadi, Esmail Riahi
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引用次数: 0

摘要

以牺牲个人和社会回报为代价将更多的行为分配给药物滥用是成瘾的一个特征,这反映在 DSM-5 的一些药物使用障碍诊断标准中。以往的研究侧重于改进自我给药(SA)模型,以更好地模拟实验动物的成瘾状态。在这里,我们将蔗糖颗粒和吗啡分别作为两种相互竞争的自然奖励和药物奖励,采用同时自我给药的方法来验证捕捉大鼠病理行为分配的可行性。实验使用了一个定制的三杠杆操作室。在一个有效杠杆和一个无效杠杆出现的情况下,训练大鼠按照固定比率1(FR-1)时间表自我注射吗啡(0.5毫克/千克/次注射;2小时/天),直到获得稳定的反应。然后,在第三根杠杆分配蔗糖颗粒(20 毫克)的情况下,训练它们在固定比例 1 下自我注射吗啡。同时进行吗啡-蔗糖 SA 训练(2 小时/天),直到重新建立稳定的吗啡摄取行为。在另一项实验中,大鼠首先建立了稳定的蔗糖颗粒摄食行为(2 小时/天,FR-1),然后训练其摄食吗啡(0.5 毫克/千克/灌注;2 小时/天)。随后,所有大鼠都接受了消退训练,即在按下杠杆时仍可获得蔗糖颗粒的情况下用生理盐水替代吗啡,然后在线索诱导下恢复寻求吗啡的行为。结果表明,当蔗糖颗粒也可获得时,大鼠保留了吗啡渴求行为,但当吗啡在消退训练期间被移除时,大鼠会表现出类似于狂饮的蔗糖摄入量。然而,先前已经建立了蔗糖颗粒瘾的大鼠并没有形成吗啡瘾。总之,即使大鼠体内存在强效的竞争性非药物奖赏,也会产生吗啡成瘾。在标准的SA模型中加入基于努力的自然奖赏或然性传递,该方案可能会为实验室动物提供一种更好的药物成瘾模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Validation of drug-nondrug choice procedure to model maladaptive behavioural allocation to opioid use in rats

Validation of drug-nondrug choice procedure to model maladaptive behavioural allocation to opioid use in rats

Increased allocation of behaviour to substance abuse at the expense of personal and social rewards is a hallmark of addiction that is reflected in several of DSM-5 criteria for diagnosis of substance use disorder. Previous studies focused on refining the self-administration (SA) model to better emulate an addictive state in laboratory animals. Here, we employed concurrent SA of sucrose pellets and morphine as two competing natural and drug rewards, respectively, to validate the feasibility of capturing pathological behavioural allocation in rats. A custom-made three-lever operant chamber was used. With one active and one inactive lever presented, rats were trained to self-administer morphine (0.5 mg/kg/infusion; 2 h/day) under a fixed-ratio 1 (FR-1) schedule until a stable response was achieved. Next, they were trained to self-administer morphine in the presence of a third lever dispensing sucrose pellets (20 mg) under FR-1. Concurrent morphine-sucrose SA sessions (2 h/day) were continued until stable morphine taking behaviour was re-established. In another experiment, rats first established stable sucrose pellet SA (2 h/day, FR-1) and then were trained to take morphine (0.5 mg/kg/infusion; 2 h/day). Subsequently, all rats underwent extinction training, in which morphine was replaced with saline while sucrose pellets were still available upon lever pressing, followed by cue-induced reinstatement of morphine seeking behaviour. Results showed that rats retained morphine SA when sucrose pellets were also available, but they showed binge-like sucrose intake when morphine was removed during the extinction sessions. However, morphine SA did not develop in rats that had previously established sucrose pellet SA. In conclusion, morphine SA developed even in the presence of a potent competing nondrug reward in rats. Adding an effort-based contingent delivery of a natural reward to the standard SA model, this protocol may provide an improved model of drug addiction in laboratory animals.

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来源期刊
Addiction Biology
Addiction Biology 生物-生化与分子生物学
CiteScore
8.10
自引率
2.90%
发文量
118
审稿时长
6-12 weeks
期刊介绍: Addiction Biology is focused on neuroscience contributions and it aims to advance our understanding of the action of drugs of abuse and addictive processes. Papers are accepted in both animal experimentation or clinical research. The content is geared towards behavioral, molecular, genetic, biochemical, neuro-biological and pharmacology aspects of these fields. Addiction Biology includes peer-reviewed original research reports and reviews. Addiction Biology is published on behalf of the Society for the Study of Addiction to Alcohol and other Drugs (SSA). Members of the Society for the Study of Addiction receive the Journal as part of their annual membership subscription.
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