Department of Psychology, University of Kentucky, 106 B, Kastle Hall, Lexington, KY 40536, USA.
Department of Pharmaceutical Sciences, University of Kentucky, Lexington, KY 40536, USA.
Drug Alcohol Depend. 2020 Jul 1;212:107988. doi: 10.1016/j.drugalcdep.2020.107988. Epub 2020 Apr 25.
As alcohol and nicotine use disorders are entwined, it may be possible to develop a single medication to treat both. We previously developed a model for ethanol (EtOH) and nicotine co-use in female selectively bred alcohol-preferring (P) rats. To model co-use in a genetically diverse population, we adapted the model to outbred Sprague-Dawley rats of both sexes and assessed the effect of drug pretreatments.
In phase 1, rats were trained in a 2-bottle choice between water and a sweetened or unsweetened EtOH solution in operant chambers. In phase 2, rats were trained in nicotine self-administration under an increasing fixed ratio (FR) schedule with 2 bottles containing water or saccharin-sweetened EtOH also available. In phase 3, rats were pretreated with EtOH (0.5, 1.5 g/kg), naltrexone (0.3 mg/kg), nicotine (0.2, 0.6 mg/kg), varenicline (3.0 mg/kg) or vehicle before the session.
Sweetening the EtOH solution was required to obtain pharmacologically relevant levels of consumption in Phase 1, with males showing increased sweetened EtOH preference compared to females. In Phase 2, increasing the FR requirement for nicotine decreased nicotine infusions, but increased EtOH consumption. In Phase 3, EtOH, naltrexone, and nicotine failed to alter EtOH consumption; however, varenicline decreased both EtOH and nicotine intake.
The co-use model was successfully adapted to Sprague-Dawley rats by adding saccharin to the EtOH solution. In contrast to previous results in P rats, varenicline reduced both EtOH and nicotine intake, indicating it may be a useful monotherapy for co-use in a genetically diverse population.
由于酒精和尼古丁使用障碍相互交织,有可能开发出一种单一的药物来治疗这两种疾病。我们之前开发了一种用于雌性选择性繁殖酒精偏好(P)大鼠乙醇(EtOH)和尼古丁共同使用的模型。为了在遗传多样化的人群中建立共同使用模型,我们将该模型改编为雌雄两性的近交系 Sprague-Dawley 大鼠,并评估了药物预处理的效果。
在第一阶段,大鼠在操作室的 2 瓶选择中接受水和加糖或不加糖的 EtOH 溶液之间的训练。在第二阶段,大鼠在增加的固定比例(FR)时间表下接受尼古丁自我给药训练,同时有 2 个瓶子含有水或含糖 EtOH。在第三阶段,大鼠在开始之前用 EtOH(0.5、1.5 g/kg)、纳曲酮(0.3 mg/kg)、尼古丁(0.2、0.6 mg/kg)、伐伦克林(3.0 mg/kg)或载体进行预处理。
在第一阶段,需要使 EtOH 溶液变甜才能获得药理学上相关的消耗水平,雄性大鼠对加糖 EtOH 的偏好高于雌性大鼠。在第二阶段,增加尼古丁 FR 要求会减少尼古丁输注,但会增加 EtOH 消耗。在第三阶段,EtOH、纳曲酮和尼古丁均未改变 EtOH 消耗;然而,伐伦克林降低了 EtOH 和尼古丁的摄入量。
通过向 EtOH 溶液中添加糖精,成功地将共同使用模型改编为 Sprague-Dawley 大鼠。与之前 P 大鼠的结果相反,伐伦克林减少了 EtOH 和尼古丁的摄入量,表明它可能是治疗遗传多样化人群共同使用的有用单药治疗方法。