Jay Michael, De Faveri Francesca, McDearmid Jonathan Robert
Department of Biology, College of Medicine, Biological Sciences and Psychology, University of Leicester, Leicester LE1 7RH, UK.
Department of Biology, College of Medicine, Biological Sciences and Psychology, University of Leicester, Leicester LE1 7RH, UK.
Curr Biol. 2015 Feb 16;25(4):435-44. doi: 10.1016/j.cub.2014.12.033. Epub 2015 Jan 29.
Dopamine (DA) has long been known to have modulatory effects on vertebrate motor circuits. However, the types of information encoded by supraspinal DAergic neurons and their relationship to motor behavior remain unknown.
By conducting electrophysiological recordings from awake, paralyzed zebrafish larvae that can produce behaviorally relevant activity patterns, we show that supraspinal DAergic neurons generate two forms of output: tonic spiking and phasic bursting. Using paired supraspinal DA neuron and motoneuron recordings, we further show that these firing modes are associated with specific behavioral states. Tonic spiking is prevalent during periods of inactivity while bursting strongly correlates with locomotor output. Targeted laser ablation of supraspinal DA neurons reduces motor episode frequency without affecting basic parameters of motor output, strongly suggesting that these cells regulate spinal network excitability.
Our findings reveal how vertebrate motor circuit flexibility is temporally controlled by supraspinal DAergic pathways and provide important insights into the functional significance of this evolutionarily conserved cell population.
长期以来,人们已知多巴胺(DA)对脊椎动物的运动回路具有调节作用。然而,脊髓上多巴胺能神经元编码的信息类型及其与运动行为的关系仍不清楚。
通过对清醒、瘫痪的斑马鱼幼虫进行电生理记录,这些幼虫能够产生与行为相关的活动模式,我们发现脊髓上多巴胺能神经元产生两种输出形式:持续性放电和阶段性爆发。通过配对脊髓上多巴胺能神经元和运动神经元记录,我们进一步表明这些放电模式与特定的行为状态相关。持续性放电在不活动期间普遍存在,而爆发与运动输出密切相关。对脊髓上多巴胺能神经元进行靶向激光消融可降低运动发作频率,而不影响运动输出的基本参数,这强烈表明这些细胞调节脊髓网络的兴奋性。
我们的研究结果揭示了脊椎动物运动回路的灵活性是如何由脊髓上多巴胺能通路进行时间控制的,并为这一进化保守细胞群的功能意义提供了重要见解。
