Distinctions among electroconvulsion- and proconvulsant-induced seizure discharges and native motor patterns during flight and grooming: quantitative spike pattern analysis in Drosophila flight muscles.

IF 1.8 4区 医学 Q3 GENETICS & HEREDITY Journal of neurogenetics Pub Date : 2019-03-01 Epub Date: 2019-04-13 DOI:10.1080/01677063.2019.1581188
Jisue Lee, Atulya Iyengar, Chun-Fang Wu
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Abstract

In Drosophila, high-frequency electrical stimulation across the brain triggers a highly stereotypic repertoire of spasms. These electroconvulsive seizures (ECS) manifest as distinctive spiking discharges across the nervous system and can be stably assessed throughout the seizure repertoire in the large indirect flight muscles dorsal longitudinal muscles (DLMs) to characterize modifications in seizure-prone mutants. However, the relationships between ECS-spike patterns and native motor programs, including flight and grooming, are not known and their similarities and distinctions remain to be characterized. We employed quantitative spike pattern analyses for the three motor patterns including: (1) overall firing frequency, (2) spike timing between contralateral fibers, and (3) short-term variability in spike interval regularity (CV2) and instantaneous firing frequency (ISI-1). This base-line information from wild-type (WT) flies facilitated quantitative characterization of mutational effects of major neurotransmitter systems: excitatory cholinergic (Cha), inhibitory GABAergic (Rdl) and electrical (ShakB) synaptic transmission. The results provide an initial glimpse on the vulnerability of individual motor patterns to different perturbations. We found marked alterations of ECS discharge spike patterns in terms of either seizure threshold, spike frequency or spiking regularity. In contrast, no gross alterations during grooming and a small but noticeable reduction of firing frequency during Rdl mutant flight were found, suggesting a role for GABAergic modulation of flight motor programs. Picrotoxin (PTX), a known pro-convulsant that inhibits GABAA receptors, induced DLM spike patterns that displayed some features, e.g. left-right coordination and ISI-1 range, that could be found in flight or grooming, but distinct from ECS discharges. These quantitative techniques may be employed to reveal overlooked relationships among aberrant motor patterns as well as their links to native motor programs.

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在飞行和梳理过程中,电惊厥和前惊厥诱发的癫痫发作放电和原生运动模式的区别:果蝇飞行肌肉的定量尖峰模式分析。
在果蝇中,通过大脑的高频电刺激会引发高度刻板的痉挛。这些电惊厥发作(ECS)表现为神经系统中独特的尖刺放电,可以通过大间接飞行肌背纵肌(DLMs)的整个发作库进行稳定评估,以表征癫痫易发突变体的变化。然而,ECS-spike模式与原生运动程序(包括飞行和梳理)之间的关系尚不清楚,它们的相似性和区别仍有待研究。我们对三种运动模式进行了定量的脉冲模式分析,包括:(1)总体放电频率,(2)对侧纤维之间的脉冲时间,以及(3)脉冲间隔规律(CV2)和瞬时放电频率(ISI-1)的短期变异性。野生型(WT)果蝇的基线信息有助于定量表征主要神经递质系统的突变效应:兴奋性胆碱能(Cha)、抑制性GABAergic (Rdl)和电性突触传递(ShakB)。结果提供了对个体运动模式对不同扰动的脆弱性的初步一瞥。我们发现ECS放电尖峰模式在癫痫阈值、尖峰频率或尖峰规律方面有显著的改变。相比之下,在梳理过程中没有明显的变化,而在Rdl突变体飞行过程中,发射频率有明显的减少,这表明gaba能调节飞行运动程序的作用。Picrotoxin (PTX)是一种已知的能抑制GABAA受体的促惊厥药,它能诱导DLM的峰值模式显示出一些特征,如左右协调和i -1范围,这些特征可以在飞行或梳洗中发现,但与ECS放电不同。这些定量技术可以用来揭示被忽视的异常运动模式之间的关系,以及它们与原生运动程序的联系。
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来源期刊
Journal of neurogenetics
Journal of neurogenetics 医学-神经科学
CiteScore
4.40
自引率
0.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: The Journal is appropriate for papers on behavioral, biochemical, or cellular aspects of neural function, plasticity, aging or disease. In addition to analyses in the traditional genetic-model organisms, C. elegans, Drosophila, mouse and the zebrafish, the Journal encourages submission of neurogenetic investigations performed in organisms not easily amenable to experimental genetics. Such investigations might, for instance, describe behavioral differences deriving from genetic variation within a species, or report human disease studies that provide exceptional insights into biological mechanisms
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