可卡因暴露后眶额-杏仁核回路中僵化行为的神经关联。
Neural correlates of inflexible behavior in the orbitofrontal-amygdalar circuit after cocaine exposure.
作者信息
Stalnaker Thomas A, Roesch Matthew R, Calu Donna J, Burke Kathryn A, Singh Teghpal, Schoenbaum Geoffrey
机构信息
Department of Anatomy and Neurobiology, University of Maryland School of Medicine, Baltimore, MD 21201, USA.
出版信息
Ann N Y Acad Sci. 2007 Dec;1121:598-609. doi: 10.1196/annals.1401.014. Epub 2007 Sep 10.
Abstract
Addiction is characterized by compulsive or inflexible behavior, observed both in the context of drug-seeking and in contexts unrelated to drugs. One possible contributor to these inflexible behaviors may be drug-induced dysfunction within circuits that support behavioral flexibility, including the basolateral amygdala (ABL) and the orbitofrontal cortex (OFC). Here we describe data demonstrating that chronic cocaine exposure causes long-lasting changes in encoding properties in the ABL and the OFC during learning and reversal in an odor-guided task. In particular, these data suggest that inflexible encoding in ABL neurons may be the proximal cause of cocaine-induced behavioral inflexibility, and that a loss of outcome-expectant encoding in OFC neurons could be a more distal contributor to this impairment. A similar mechanism of drug-induced orbitofrontal-amygdalar dysfunction may cause inflexible behavior when animals and addicts are exposed to drug-associated cues and contexts.
摘要
成瘾的特征是强迫性或僵化行为,在寻求药物的背景下以及与药物无关的背景下均有观察到。导致这些僵化行为的一个可能因素可能是药物诱导的支持行为灵活性的神经回路功能障碍,包括基底外侧杏仁核(ABL)和眶额叶皮质(OFC)。在此,我们描述了数据,表明慢性可卡因暴露在气味引导任务的学习和逆转过程中会导致ABL和OFC的编码特性发生持久变化。特别是,这些数据表明ABL神经元中的僵化编码可能是可卡因诱导的行为僵化的近端原因,而OFC神经元中预期结果编码的丧失可能是这种损害的更远端因素。当动物和成瘾者接触与药物相关的线索和环境时,药物诱导的眶额叶 - 杏仁核功能障碍的类似机制可能会导致僵化行为。
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