摘要
全身麻醉药广泛应用于临床,但其引起全身麻醉状态的神经机制至今仍不清楚。脊椎动物斑马鱼具有保守而简单的脑结构,近几年来已应用于神经机理基础性的研究。在本工作中,我们从行为和电生理水平上,首次建立了斑马鱼麻醉模型。在细胞外液中施加静脉麻醉药依托咪酯(etomidate),可以浓度依赖性地抑制斑马鱼的运动。在体细胞外电生理记录显示,依托咪酯可有效阻断斑马鱼脊髓运动神经元的电活动。运用在体局部场电位和全细胞记录技术,进一步发现依托咪酯可显著抑制大脑群体神经元的活动,并阻断视觉信号的传递。本工作表明,斑马鱼可以作为一种合适的动物模型,应用于全身麻醉药神经机制的研究。
Despite the wide application of general anesthetic drugs in clinic, it is still unclear how these drugs induce the state of general anesthesia. Larval zebrafish has emerged as an ideal model for dissecting the mechanism of neural systems due to the conserved and simple brain structure. In the present study, we established an anesthesia model from behavioral to electrophysiological levels using larval zebrafish for the first time. Bath application of etomidate, as a kind of intravenous anesthetic drugs, suppressed the spontaneous locomotion of zebrafish in a concentration-dependent manner. Consistently, in vivo fictive motor patterns of spinal motoneurons recorded extracellularly were significantly inhibited as well. Furthermore, using in vivo extracellular recording and whole-cell recording, we found that etomidate application suppressed local field potentials(LFP) of the brain and blocked visually evoked responses of optic tectal neurons. The study indicates that larval zebrafish can serve as an ideal vertebrate animal model for studying neural mechanisms underlying general anesthesia.
出处
《生理学报》
CAS
CSCD
北大核心
2016年第3期301-305,共5页
Acta Physiologica Sinica
基金
This work was supported by the National Natural Science Foundation of China(No.81571026)
关键词
斑马鱼
全身麻醉
依托咪酯
在体电生理记录
行为
zebrafish
general anesthesia
etomidate
in vivo electrophysiological recording
behavior
