Department of Molecular Neuropharmacology, Institute of Pharmacology of the Polish Academy of Sciences, Krakow, Poland.
Biol Psychiatry. 2013 Feb 1;73(3):263-70. doi: 10.1016/j.biopsych.2012.07.019. Epub 2012 Aug 16.
Novel experiences activate the brain's reward system in a manner similar to drugs of abuse, and high levels of novelty-seeking and sensation-seeking behavior have been associated with increased susceptibility to alcohol and drug abuse. Here, we show that metabotropic glutamate receptor 5 (mGluR5) signaling on dopaminoceptive neurons is necessary for both novelty-seeking behavior and the abstinence-induced escalation of alcohol drinking.
Mice harboring a transgene expressing microRNA hairpins against mGluR5 messenger RNA under the control of the D1 dopamine receptor gene promoter (mGluR5(KD-D1)) were tested in a battery of behavioral tests measuring learning abilities, anxiety levels, reactions to novelty, operant sensation seeking, and alcohol sensitivity. In addition, we have developed a method to assess long-term patterns of alcohol drinking in mice housed in groups using the IntelliCage system.
mGluR5(KD-D1) mice showed no behavioral deficits and exhibited normal anxiety-like behaviors and learning abilities. However, mGluR5(KD-D1) animals showed reduced locomotor activity when placed in a novel environment, and exhibited decreased interaction with a novel object. Moreover, unlike control animals, mutant mice did not perform instrumental responses under the operant sensation-seeking paradigm, although they learned to respond for food normally. When mGluR5(KD-D1) mice were provided access to alcohol, they showed similar patterns of consumption as wild-type animals. However, mutant mice did not escalate their alcohol consumption after a period of forced abstinence, but control mice almost doubled their intake.
These data identify mGluR5 receptors on D1-expressing neurons as a common molecular substrate of novelty-seeking behaviors and behaviors associated with alcohol abuse.
新颖的体验以类似于滥用药物的方式激活大脑的奖励系统,高水平的寻求新奇和寻求刺激的行为与对酒精和药物滥用的易感性增加有关。在这里,我们表明,多巴胺能神经元上的代谢型谷氨酸受体 5(mGluR5)信号对于寻求新奇的行为和戒断引起的酒精饮用增加都是必要的。
在一组行为测试中,表达受多巴胺 D1 受体基因启动子控制的 microRNA 发夹的 mGluR5 信使 RNA 的转基因小鼠(mGluR5(KD-D1))进行了测试,该测试测量学习能力、焦虑水平、对新奇的反应、操作性感觉寻求和酒精敏感性。此外,我们开发了一种方法,使用 IntelliCage 系统评估群居小鼠的长期饮酒模式。
mGluR5(KD-D1) 小鼠没有表现出行为缺陷,并且表现出正常的焦虑样行为和学习能力。然而,mGluR5(KD-D1) 动物在放置在新环境中时表现出运动活动减少,并且与新物体的互动减少。此外,与对照动物不同,突变动物在操作性感觉寻求范式下没有进行工具性反应,尽管它们正常地学会了对食物作出反应。当 mGluR5(KD-D1) 小鼠获得酒精时,它们的消耗模式与野生型动物相似。然而,突变小鼠在强制戒断后的一段时间内没有增加他们的酒精摄入量,但对照小鼠的摄入量几乎增加了一倍。
这些数据将 D1 表达神经元上的 mGluR5 受体确定为寻求新奇行为和与酒精滥用相关行为的共同分子底物。
