细胞类型特异性 BDNF 信号缺失模拟光遗传学可卡因奖赏控制。
Cell type-specific loss of BDNF signaling mimics optogenetic control of cocaine reward.
机构信息
Fishberg Department of Neuroscience, Mount Sinai School of Medicine, New York, NY 10029, USA.
出版信息
Science. 2010 Oct 15;330(6002):385-90. doi: 10.1126/science.1188472.
Abstract
The nucleus accumbens is a key mediator of cocaine reward, but the distinct roles of the two subpopulations of nucleus accumbens projection neurons, those expressing dopamine D1 versus D2 receptors, are poorly understood. We show that deletion of TrkB, the brain-derived neurotrophic factor (BDNF) receptor, selectively from D1+ or D2+ neurons oppositely affects cocaine reward. Because loss of TrkB in D2+ neurons increases their neuronal excitability, we next used optogenetic tools to control selectively the firing rate of D1+ and D2+ nucleus accumbens neurons and studied consequent effects on cocaine reward. Activation of D2+ neurons, mimicking the loss of TrkB, suppresses cocaine reward, with opposite effects induced by activation of D1+ neurons. These results provide insight into the molecular control of D1+ and D2+ neuronal activity as well as the circuit-level contribution of these cell types to cocaine reward.
摘要
伏隔核是可卡因奖赏的主要调节者,但多巴胺 D1 受体和 D2 受体表达的伏隔核投射神经元这两个亚群的具体作用仍不清楚。我们发现,选择性敲除多巴胺 D1 受体和 D2 受体神经元中的脑源性神经营养因子(BDNF)受体 TrkB,会对可卡因奖赏产生相反的影响。由于 D2+神经元中 TrkB 的缺失会增加其神经元的兴奋性,我们接下来使用光遗传学工具选择性地控制 D1+和 D2+伏隔核神经元的发放频率,并研究其对可卡因奖赏的后续影响。激活 D2+神经元(模拟 TrkB 的缺失)会抑制可卡因奖赏,而激活 D1+神经元则会产生相反的效果。这些结果为理解 D1+和 D2+神经元活性的分子调控以及这些细胞类型对可卡因奖赏的回路水平贡献提供了线索。
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本文引用的文献
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