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D-苯丙胺暴露对斑马鱼个体发育过程中的信号传导产生不同的干扰。

D-Amphetamine Exposure Differentially Disrupts Signaling Across Ontogeny in the Zebrafish.

作者信息

Serpa Bradley J, Bullard Jennifer D, Mendiola Victoria C, Smith Crystal J, Stewart Brandon, Ganser Lisa R

机构信息

Department of Molecular and Cellular Biology, Kennesaw State University, Kennesaw, Georgia.

Medical University of South Carolina, Charleston, South Carolina.

出版信息

Bioelectricity. 2019 Jun 1;1(2):85-104. doi: 10.1089/bioe.2019.0006. Epub 2019 Jun 14.

Abstract

Prescriptive and illicit amphetamine (AMPH) use continues to increase along with the likelihood that during an individual's lifetime, the drug deleteriously influences the growth and connectivity of behavior circuits necessary for survival. Throughout ontogeny, neural circuits underlying these behaviors grow in complexity, gradually integrating many sensory inputs that trigger higher order coordinated motor responses. In the present study, we examine how AMPH disrupts the establishment of these circuits at critical neurodevelopmental periods, as well as the communication among established survival circuits. Zebrafish embryos (from 1 hpf) were raised in AMPH solutions, growth parameters and escape behavior were assessed at 24 and 48 hpf, and spinal cord tissues analyzed for differences in excitatory-inhibitory signaling balance among treatments. Adult fish were fed an acute dosage of AMPH over an 11-day conditioned place preference (PP) paradigm during which behaviors were recorded and brain tissues analyzed for alterations in dopaminergic signaling. AMPH negatively affects embryonic growth and slows the execution of escape behavior, suggesting an imbalance in locomotor signaling. Although local spinal circuits provide primary escape modulation, no differences in inhibitory glycinergic, and excitatory glutamatergic signaling were measured among spinal neurons. AMPH also influenced place preference in adult zebrafish and resulted in the increased expression of dopamine signaling proteins (DRD1) in brain areas governing survival behaviors.

摘要

处方性和非法苯丙胺(AMPH)的使用持续增加,而且在个体的一生中,这种药物很可能会对生存所需行为回路的生长和连接产生有害影响。在整个个体发育过程中,这些行为背后的神经回路复杂性不断增加,逐渐整合许多触发更高阶协调运动反应的感觉输入。在本研究中,我们研究了苯丙胺如何在关键的神经发育时期破坏这些回路的建立,以及已建立的生存回路之间的通信。将斑马鱼胚胎(受精后1小时起)饲养在苯丙胺溶液中,在受精后24小时和48小时评估生长参数和逃避行为,并分析脊髓组织中不同处理之间兴奋-抑制信号平衡的差异。在11天的条件性位置偏爱(PP)范式中,给成年鱼喂食急性剂量的苯丙胺,在此期间记录行为,并分析脑组织中多巴胺能信号的变化。苯丙胺对胚胎生长有负面影响,并减缓逃避行为的执行,表明运动信号失衡。虽然局部脊髓回路提供主要的逃避调节,但在脊髓神经元中未检测到抑制性甘氨酸能和兴奋性谷氨酸能信号的差异。苯丙胺还影响成年斑马鱼的位置偏爱,并导致在控制生存行为的脑区中多巴胺信号蛋白(DRD1)的表达增加。

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