伏隔核中线索和接近编码对奖励寻求的激励作用。
Invigoration of reward seeking by cue and proximity encoding in the nucleus accumbens.
机构信息
Department of Psychiatry, Albert Einstein College of Medicine of Yeshiva University, Bronx, NY 10461, USA.
出版信息
Neuron. 2013 Jun 5;78(5):910-22. doi: 10.1016/j.neuron.2013.04.010.
Abstract
A key function of the nucleus accumbens is to promote vigorous reward seeking, but the corresponding neural mechanism has not been identified despite many years of research. Here, we study cued flexible approach behavior, a form of reward seeking that strongly depends on the accumbens, and we describe a robust, single-cell neural correlate of behavioral vigor in the excitatory response of accumbens neurons to reward-predictive cues. Well before locomotion begins, this cue-evoked excitation predicts both the movement initiation latency and the speed of subsequent flexible approach responses, but not those of stereotyped, inflexible responses. Moreover, the excitation simultaneously signals the subject's proximity to the approach target, a signal that appears to mediate greater response vigor on trials that begin with the subject closer to the target. These results demonstrate a neural mechanism for response invigoration whereby accumbens neuronal encoding of reward availability and target proximity together drive the onset and speed of reward-seeking locomotion.
摘要
伏隔核的一个关键功能是促进强烈的奖励寻求,但尽管进行了多年的研究,仍然没有确定相应的神经机制。在这里,我们研究了提示性灵活接近行为,这是一种强烈依赖伏隔核的奖励寻求形式,我们描述了一种稳健的、单细胞神经关联,即伏隔核神经元对奖励预测线索的兴奋反应与行为活力之间的关联。在运动开始之前,这种线索诱发的兴奋既预测了运动起始潜伏期,也预测了随后灵活接近反应的速度,但不能预测刻板的、不灵活的反应的速度。此外,这种兴奋同时标志着主体接近接近目标的程度,这种信号似乎在以主体更接近目标的试验中,对更大的反应活力起中介作用。这些结果表明了一种反应激励的神经机制,即伏隔核神经元对奖励可获得性和目标接近度的编码共同驱动了奖励寻求运动的开始和速度。
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