Zombeck Jonathan A, Chen Guan-Ting, Johnson Zachary V, Rosenberg David M, Craig Adam B, Rhodes Justin S
Department of Psychology, The Beckman Institute, 405 N Mathews Ave, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA.
Physiol Behav. 2008 Feb 27;93(3):637-50. doi: 10.1016/j.physbeh.2007.11.004. Epub 2007 Nov 12.
Neural circuits implicated in drug conditioning, craving and relapse overlap extensively with those involved in natural reward and reinforcement. To determine whether specificity could be detected in conditioned brain responses to drugs versus food, male outbred HSD:ICR mice were conditioned to a common environment using either 20 mg/kg cocaine (ip) or a familiar food (under food restriction). The mice were then re-exposed to the same environment without the reinforcer and patterns of brain activation were compared using immunohistochemical detection of Fos. Conditioned place preference tests were conducted first to establish relative potency of each reward and facilitate analysis of correlations between Fos and motivation. Place preference was stronger for cocaine than food. Food- but not cocaine-paired cues increased Fos in the paraventricular hypothalamic nucleus whereas the opposite occurred for prefrontal, cingulate and piriform cortices. Individual differences in cocaine place preference were negatively correlated with Fos in the prefrontal cortex. One difference between drugs and natural reinforcers may be lack of feedback from the periphery for drugs which may circumvent control from the hypothalamus in the development of reinforcement circuits.
与药物条件反射、渴望和复发相关的神经回路与参与自然奖赏和强化的神经回路广泛重叠。为了确定在对药物与食物的条件性脑反应中是否能检测到特异性,将雄性远交群HSD:ICR小鼠用20mg/kg可卡因(腹腔注射)或熟悉的食物(在食物限制条件下)在共同环境中进行条件反射训练。然后让小鼠在没有强化物的情况下再次暴露于相同环境,并使用Fos的免疫组织化学检测比较脑激活模式。首先进行条件性位置偏爱测试以确定每种奖赏的相对效力,并便于分析Fos与动机之间的相关性。可卡因引起的位置偏爱比食物更强。与食物配对的线索而非与可卡因配对的线索增加了下丘脑室旁核中的Fos,而前额叶、扣带回和梨状皮质的情况则相反。可卡因位置偏爱中的个体差异与前额叶皮质中的Fos呈负相关。药物与自然强化物之间的一个差异可能是药物缺乏来自外周的反馈,这可能在强化回路的发育过程中规避下丘脑的控制。
