Identification of genes regulating stimulus-dependent synaptic assembly in Drosophila using an automated synapse quantification system.

IF 1 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Genes & genetic systems Pub Date : 2023-04-18 DOI:10.1266/ggs.22-00114
Jiro Osaka, Haruka Yasuda, Yusuke Watanuki, Yuya Kato, Yohei Nitta, Atsushi Sugie, Makoto Sato, Takashi Suzuki
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引用次数: 2

Abstract

Neural activity-dependent synaptic plasticity is an important physiological phenomenon underlying environmental adaptation, memory and learning. However, its molecular basis, especially in presynaptic neurons, is not well understood. Previous studies have shown that the number of presynaptic active zones in the Drosophila melanogaster photoreceptor R8 is reversibly changed in an activity-dependent manner. During reversible synaptic changes, both synaptic disassembly and assembly processes were observed. Although we have established a paradigm for screening molecules involved in synaptic stability and several genes have been identified, genes involved in stimulus-dependent synaptic assembly are still elusive. Therefore, the aim of this study was to identify genes regulating stimulus-dependent synaptic assembly in Drosophila using an automated synapse quantification system. To this end, we performed RNAi screening against 300 memory-defective, synapse-related or transmembrane molecules in photoreceptor R8 neurons. Candidate genes were narrowed down to 27 genes in the first screen using presynaptic protein aggregation as a sign of synaptic disassembly. In the second screen, we directly quantified the decreasing synapse number using a GFP-tagged presynaptic protein marker. We utilized custom-made image analysis software, which automatically locates synapses and counts their number along individual R8 axons, and identified cirl as a candidate gene responsible for synaptic assembly. Finally, we present a new model of stimulus-dependent synaptic assembly through the interaction of cirl and its possible ligand, ten-a. This study demonstrates the feasibility of using the automated synapse quantification system to explore activity-dependent synaptic plasticity in Drosophila R8 photoreceptors in order to identify molecules involved in stimulus-dependent synaptic assembly.

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使用自动突触定量系统鉴定果蝇刺激依赖性突触组装调节基因。
神经活动依赖的突触可塑性是影响环境适应、记忆和学习的重要生理现象。然而,它的分子基础,特别是在突触前神经元中,还没有得到很好的理解。先前的研究表明,黑腹果蝇光感受器R8的突触前活跃区数量以活动依赖的方式可逆地改变。在可逆的突触变化过程中,可以观察到突触的拆卸和组装过程。尽管我们已经建立了一种筛选参与突触稳定性的分子的范例,并且已经确定了几个基因,但参与刺激依赖性突触组装的基因仍然难以捉摸。因此,本研究的目的是利用自动突触量化系统识别果蝇刺激依赖性突触组装的调控基因。为此,我们对光感受器R8神经元中300个记忆缺陷、突触相关或跨膜分子进行了RNAi筛选。候选基因在第一次筛选中被缩小到27个基因,使用突触前蛋白聚集作为突触解体的标志。在第二个筛选中,我们使用gfp标记的突触前蛋白标记物直接量化突触数量的减少。我们使用定制的图像分析软件,该软件自动定位突触并计数沿单个R8轴突的突触数量,并确定了cirl作为负责突触组装的候选基因。最后,我们提出了一种新的刺激依赖性突触组装模型,通过cirl及其可能的配体ten-a的相互作用。本研究证明了使用自动突触量化系统来探索果蝇R8光感受器活动依赖性突触可塑性的可行性,从而确定刺激依赖性突触组装的相关分子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Genes & genetic systems
Genes & genetic systems 生物-生化与分子生物学
CiteScore
1.50
自引率
0.00%
发文量
22
审稿时长
>12 weeks
期刊介绍: Genes & Genetic Systems , formerly the Japanese Journal of Genetics , is published bimonthly by the Genetics Society of Japan.
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