下边缘皮层在工具行为的惩罚和消退过程中也起着类似的作用

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Matthew C. Broomer, Mark E. Bouton
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引用次数: 0

摘要

学会停止反应是工具性学习的一个基本过程。动物可以在多种条件下学会停止反应,其中包括惩罚--反应除了强化物之外还能获得厌恶刺激,以及消亡--强化反应现在什么也得不到。最新研究表明,惩罚和消退可能是一个共同的追溯干扰过程的相关表现形式。在这两种范式中,动物学会了在特定情境中停止做出特定反应,这表明情境直接抑制了动物的反应。这一过程可能依赖于下边缘皮层(IL),而下边缘皮层与多种基于干扰的学习范式(包括消退和习惯学习)都有关联。尽管消退和惩罚在行为上有相似之处,但在惩罚中,IL 的相应作用尚未被发现。在这里,我们报告了一种简单的安排,即在不同于最初获得行为的情境中进行惩罚或消减,IL失活会减少抑制情境中的反应抑制,但不会减少在原始情境中 "更新 "时的反应。在一种更复杂的安排中,两种反应首先在不同的情境中被训练,然后在相反的情境中被熄灭或惩罚,IL 失活没有效果。这些结果加深了我们对 IL 在追溯干扰中的作用以及抑制反应的行为机制的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Infralimbic cortex plays a similar role in the punishment and extinction of instrumental behavior

Learning to stop responding is a fundamental process in instrumental learning. Animals may learn to stop responding under a variety of conditions that include punishment—where the response earns an aversive stimulus in addition to a reinforcer—and extinction—where a reinforced response now earns nothing at all. Recent research suggests that punishment and extinction may be related manifestations of a common retroactive interference process. In both paradigms, animals learn to stop performing a specific response in a specific context, suggesting direct inhibition of the response by the context. This process may depend on the infralimbic cortex (IL), which has been implicated in a variety of interference-based learning paradigms including extinction and habit learning. Despite the behavioral parallels between extinction and punishment, a corresponding role for IL in punishment has not been identified. Here we report that, in a simple arrangement where either punishment or extinction was conducted in a context that differed from the context in which the behavior was first acquired, IL inactivation reduced response suppression in the inhibitory context, but not responding when it “renewed” in the original context. In a more complex arrangement in which two responses were first trained in different contexts and then extinguished or punished in the opposite one, IL inactivation had no effect. The results advance our understanding of the effects of IL in retroactive interference and the behavioral mechanisms that can produce suppression of a response.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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