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大鼠伏隔核中多巴胺D1和D2受体被阻断后,辨别反转学习完整,但对奖励预测线索的反应变慢。

Intact discrimination reversal learning but slowed responding to reward-predictive cues after dopamine D1 and D2 receptor blockade in the nucleus accumbens of rats.

作者信息

Calaminus Carsten, Hauber Wolfgang

机构信息

Abteilung Tierphysiologie, Biologisches Institut, Universitaet Stuttgart, 70550, Stuttgart, Germany.

出版信息

Psychopharmacology (Berl). 2007 Apr;191(3):551-66. doi: 10.1007/s00213-006-0532-y. Epub 2006 Oct 5.

DOI:10.1007/s00213-006-0532-y
PMID:17021925
Abstract

RATIONALE

The prediction error hypothesis of dopamine action states that dopamine signals are necessary for the brain to update the predictive significance of cues. Yet, little is known whether D1 or D2 receptor-mediated signals in the nucleus accumbens core (AcbC) are required to learn a reversal of the predictive significance of cues.

OBJECTIVE

Here we examined the effects of a selective D1 or D2 receptor blockade in the AcbC on learning a reversal of previously acquired cue-reward magnitude contingencies.

MATERIALS AND METHODS

Rats were trained on a reaction time (RT) task demanding conditioned lever release with discriminative visual cues signalling in advance the upcoming reward magnitude (one or five food pellets). After acquisition, RTs were guided by cue-associated reward magnitudes, i.e. RTs of responses were significantly shorter for expected high vs low reward. Thereafter, cue-reward magnitude contingencies were reversed. Reversal learning was tested for 12 daily sessions with intra-AcbC micro-infusions being given on sessions 1-6. Subjects received pre-trial infusions of the selective D1 or D2 receptor antagonists, SCH23390 (0.5, 2 microg per side) or raclopride (1, 4 microg per side), or vehicle (0.5 microl).

RESULTS

Intra-AcbC infusion of SCH23390 (0.5, 2 microg) or raclopride (1, 4 microg) did not inhibit discrimination reversal learning, but the higher dose of each drug increased RTs of instrumental responses.

CONCLUSIONS

In a visual discrimination task as used here, D1 and D2 receptor-mediated signals in the AcbC seem to be unnecessary in updating the reward-predictive significance of cues, rather, they serve to activate instrumental behaviour.

摘要

理论依据

多巴胺作用的预测误差假说认为,多巴胺信号对于大脑更新线索的预测意义是必需的。然而,对于伏隔核核心(AcbC)中D1或D2受体介导的信号是否是学习线索预测意义的反转所必需的,人们知之甚少。

目的

在此,我们研究了在AcbC中选择性阻断D1或D2受体对学习先前获得的线索-奖励大小偶联关系的反转的影响。

材料与方法

对大鼠进行反应时间(RT)任务训练,该任务要求通过有辨别力的视觉线索进行条件性杠杆释放,这些线索提前预示即将到来的奖励大小(一粒或五粒食物丸)。习得后,反应时间由与线索相关的奖励大小引导,即对于预期的高奖励与低奖励,反应的反应时间显著更短。此后,线索-奖励大小偶联关系发生反转。在第1至6天进行AcbC内微量注射的情况下,对反转学习进行了12天的每日测试。实验对象接受选择性D1或D2受体拮抗剂SCH23390(每侧0.5、2微克)或雷氯必利(每侧1、4微克)或载体(0.5微升)的预试验注射。

结果

在AcbC内注射SCH23390(0.5、2微克)或雷氯必利(1、4微克)并不抑制辨别反转学习,但每种药物的较高剂量增加了工具性反应的反应时间。

结论

在此处使用的视觉辨别任务中,AcbC中D1和D2受体介导的信号在更新线索的奖励预测意义方面似乎并非必需,相反,它们有助于激活工具性行为。

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