Institute of Neuroinformatics, University of Zurich and ETH Zurich, 8057 Zurich, Switzerland and Neuroscience Center Zurich (ZNZ), 8057 Zurich, Switzerland.
Institute of Neuroinformatics, University of Zurich and ETH Zurich, 8057 Zurich, Switzerland and Neuroscience Center Zurich (ZNZ), 8057 Zurich, Switzerland
J Neurosci. 2014 May 14;34(20):7018-26. doi: 10.1523/JNEUROSCI.0266-14.2014.
Many animals exhibit flexible behaviors that they can adjust to increase reward or avoid harm (learning by positive or aversive reinforcement). But what neural mechanisms allow them to restore their original behavior (motor program) after reinforcement is withdrawn? One possibility is that motor restoration relies on brain areas that have a role in memorization but no role in either motor production or in sensory processing relevant for expressing the behavior and its refinement. We investigated the role of a higher auditory brain area in the songbird for modifying and restoring the stereotyped adult song. We exposed zebra finches to aversively reinforcing white noise stimuli contingent on the pitch of one of their stereotyped song syllables. In response, birds significantly changed the pitch of that syllable to avoid the aversive reinforcer. After we withdrew reinforcement, birds recovered their original song within a few days. However, we found that large bilateral lesions in the caudal medial nidopallium (NCM, a high auditory area) impaired recovery of the original pitch even several weeks after withdrawal of the reinforcing stimuli. Because NCM lesions spared both successful noise-avoidance behavior and birds' auditory discrimination ability, our results show that NCM is not needed for directed motor changes or for auditory discriminative processing, but is implied in memorizing or recalling the memory of the recent song target.
许多动物表现出灵活的行为,它们可以调整这些行为来增加奖励或避免伤害(通过正强化或负强化来学习)。但是,它们用什么神经机制来恢复原来的行为(运动程序),当强化被撤回时?一种可能性是,运动恢复依赖于在记忆中起作用但在运动产生或在表达行为及其细化方面起作用的感觉处理中不起作用的大脑区域。我们研究了鸣禽大脑中一个较高的听觉区域在修饰和恢复刻板的成年鸣叫声中的作用。我们让斑马雀接触到与它们刻板的鸣叫声中的一个音节的音高相关的厌恶强化白噪声刺激。作为回应,鸟类显著地改变了那个音节的音高,以避免厌恶的强化物。在我们撤回强化后,鸟类在几天内恢复了它们原来的歌声。然而,我们发现,在中脑背内侧核(NCM,一个高听觉区域)的双侧大损伤即使在撤回强化刺激后的几周内也会损害原始音高的恢复。由于 NCM 损伤既保留了成功的回避行为,也保留了鸟类的听觉辨别能力,因此我们的结果表明,NCM 不需要用于定向运动变化或听觉辨别处理,但它暗示了对最近的歌曲目标的记忆或回忆。