Salamone J D, Arizzi M N, Sandoval M D, Cervone K M, Aberman J E
Department of Psychology, University of Connecticut, Storrs, CT 06269-1020, USA.
Psychopharmacology (Berl). 2002 Apr;160(4):371-80. doi: 10.1007/s00213-001-0994-x. Epub 2002 Feb 14.
Dopamine is important for enabling organisms to overcome work-related response costs. One way of investigating this function has been with concurrent choice procedures using food reinforcement. In the present study, rats were given a choice between pressing a lever for preferred Bioserve pellets, or approaching and consuming a less-preferred laboratory chow that was concurrently available. In previous work with this task, dopamine antagonists and accumbens dopamine depletions decreased lever pressing but increased chow consumption.
The present study assessed three drugs (two dopamine antagonists and one appetite suppressant) using the lever pressing/chow feeding task.
Under baseline conditions, rats pressed the lever at high rates (1,300-1,500 responses) to obtain the preferred food, and little of the laboratory chow was eaten (1-2 g). Selective D1 and D2 antagonists (SKF 83566 and raclopride) reduced fixed ratio 5 lever pressing, but substantially increased chow consumption. In contrast, the serotonergic appetite suppressant fenfluramine reduced both lever pressing and chow consumption. With the dopamine antagonists, lever pressing and chow consumption were inversely correlated across treatments, while these two measures were unrelated in the fenfluramine experiment.
Dopamine antagonists and accumbens dopamine depletions do not simply reduce appetite. Rats with accumbens dopamine depletions, or rats treated with low doses of selective or non-selective dopamine antagonists, remain directed toward the acquisition and consumption of food. These results demonstrate that fundamental aspects of food reinforcement are left intact after treatment with low doses of dopamine antagonists.
多巴胺对于使生物体克服与工作相关的反应成本很重要。研究这一功能的一种方法是使用食物强化的同时选择程序。在本研究中,让大鼠在按压杠杆以获取偏爱的Bioserve颗粒与接近并食用同时可得的不太偏爱的实验室饲料之间进行选择。在先前关于此任务的研究中,多巴胺拮抗剂和伏隔核多巴胺耗竭会减少杠杆按压,但会增加饲料消耗。
本研究使用杠杆按压/饲料进食任务评估了三种药物(两种多巴胺拮抗剂和一种食欲抑制剂)。
在基线条件下,大鼠以高频率(1300 - 1500次反应)按压杠杆以获取偏爱的食物,而很少食用实验室饲料(1 - 2克)。选择性D1和D2拮抗剂(SKF 83566和雷氯必利)降低了固定比率5的杠杆按压,但大幅增加了饲料消耗。相比之下,血清素能食欲抑制剂芬氟拉明减少了杠杆按压和饲料消耗。使用多巴胺拮抗剂时,杠杆按压和饲料消耗在不同处理之间呈负相关,而在芬氟拉明实验中这两个指标不相关。
多巴胺拮抗剂和伏隔核多巴胺耗竭并非简单地降低食欲。伏隔核多巴胺耗竭的大鼠或用低剂量选择性或非选择性多巴胺拮抗剂治疗的大鼠,仍然倾向于获取和食用食物。这些结果表明,低剂量多巴胺拮抗剂治疗后,食物强化的基本方面仍保持完整。
