Isolation and electrophysiological recording of Ixodes ricinus synganglion neurons

IF 1.3 4区 医学 Q4 PHARMACOLOGY & PHARMACY
Khalid Boussaine , Maria Taha , Cáinà Nìng , Alison Cartereau , Sabine Rakotobe , Lourdes Mateos-Hernandez , Emiliane Taillebois , Ladislav Šimo , Steeve H. Thany
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Abstract

The central nervous system of hard ticks (Ixodidae) consists of a concentrated merged nerve mass known as the synganglion. Although knowledge of tick neurobiology has dramatically improved over the last two decades, this is the first time that isolation and electrophysiological recordings have been carried out on tick neurons from the synganglion. Method: We developed a simple protocol for synganglion neuron isolation and used a whole-cell patch clamp to measure ionic currents induced by acetylcholine, nicotine and muscarine. Relatively large neurons (∼ 25 μm and ∼ 35 μm) were isolated and 1 mM acetylcholine was used to induce strong inward currents of −0.38 ± 0.1 nA and − 1.04 ± 0.1 nA, respectively, with the corresponding cell capacitances being at around 142 pF and 188 pF. In addition, successive application of 1 mM acetylcholine through ∼25 μm and ∼ 35 μm cells for increasing amounts of time resulted in a rapid reduction in current amplitudes. We also found that acetylcholine-evoked currents were associated with a reversible increase in intracellular calcium levels for each neuronal type. In contrast, 1 mM muscarine and nicotine induced a strong and non-reversible increase in intracellular calcium levels. This study serves as a proof of concept for the mechanical isolation of tick synganglion neurons followed by their electrophysiological recording. This approach will aid investigations into the pharmacological properties of tick neurons and provides the tools needed for the identification of drug-targeted sites and effective tick control measures.

蓖麻硬蜱同神经节神经元的分离和电生理记录。
硬蜱(硬蜱科)的中枢神经系统由一个集中的合并神经团组成,称为同神经节。尽管在过去的二十年里,蜱虫神经生物学的知识有了显著的进步,但这是首次对同神经节的蜱虫神经元进行分离和电生理记录。方法:我们开发了一种简单的同神经节神经元分离方案,并使用全细胞膜片钳测量乙酰胆碱、尼古丁和毒蕈碱诱导的离子电流。相对较大的神经元(~25 μm和 ~ 35 μm)分离 mM乙酰胆碱用于诱导-0.38的强内向电流 ± 0.1 nA和 - 1.04 ± 0.1 nA,相应的单元电容约为142 pF和188 pF.此外 mM乙酰胆碱通过~25 μm和 ~ 35 μm细胞持续增加的时间导致电流幅度的快速降低。我们还发现,乙酰胆碱诱发电流与每种神经元类型的细胞内钙水平的可逆增加有关。相反,1 mM毒蕈碱和尼古丁诱导细胞内钙水平的强烈且不可逆的增加。这项研究为蜱类同神经节神经元的机械隔离及其电生理记录提供了概念证明。这种方法将有助于研究蜱虫神经元的药理学特性,并为鉴定药物靶向位点和有效的蜱虫控制措施提供所需的工具。
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来源期刊
Journal of pharmacological and toxicological methods
Journal of pharmacological and toxicological methods PHARMACOLOGY & PHARMACY-TOXICOLOGY
CiteScore
3.60
自引率
10.50%
发文量
56
审稿时长
26 days
期刊介绍: Journal of Pharmacological and Toxicological Methods publishes original articles on current methods of investigation used in pharmacology and toxicology. Pharmacology and toxicology are defined in the broadest sense, referring to actions of drugs and chemicals on all living systems. With its international editorial board and noted contributors, Journal of Pharmacological and Toxicological Methods is the leading journal devoted exclusively to experimental procedures used by pharmacologists and toxicologists.
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