Tian Ju, Uchida Naoshige
Department of Molecular and Cellular Biology, Center for Brain Science, Harvard University, Cambridge, MA 01238, USA.
Department of Molecular and Cellular Biology, Center for Brain Science, Harvard University, Cambridge, MA 01238, USA.
Neuron. 2015 Sep 23;87(6):1304-1316. doi: 10.1016/j.neuron.2015.08.028. Epub 2015 Sep 10.
Dopamine (DA) neurons are thought to facilitate learning by signaling reward prediction errors (RPEs), the discrepancy between actual and expected reward. However, how RPEs are calculated remains unknown. It has been hypothesized that DA neurons receive RPE signals from the lateral habenula. Here, we tested how lesions of the habenular complex affect the response of optogenetically identified DA neurons in mice. We found that lesions impaired specific aspects of RPE signaling in DA neurons. The inhibitory responses caused by reward omission were greatly diminished while inhibitory responses to aversive stimuli, such as air puff-predictive cues or air puff, remained unimpaired. Furthermore, we found that after habenula lesions, DA neurons' ability to signal graded levels of positive RPEs became unreliable, yet significant excitatory responses still remained. These results demonstrate that the habenula plays a critical role in DA RPE signaling but suggest that it is not the exclusive source of RPE signals.
多巴胺(DA)神经元被认为通过发出奖励预测误差(RPE)信号来促进学习,即实际奖励与预期奖励之间的差异。然而,RPE是如何计算的仍然未知。有人提出假设,DA神经元从外侧缰核接收RPE信号。在此,我们测试了缰核复合体损伤如何影响小鼠中通过光遗传学鉴定的DA神经元的反应。我们发现损伤损害了DA神经元中RPE信号的特定方面。奖励缺失引起的抑制反应大大减弱,而对厌恶刺激(如吹气预测线索或吹气)的抑制反应仍未受损。此外,我们发现缰核损伤后,DA神经元发出分级正RPE水平信号的能力变得不可靠,但仍有显著的兴奋性反应。这些结果表明,缰核在DA RPE信号传导中起关键作用,但表明它不是RPE信号的唯一来源。