Praziquantel activates a native cation current in Schistosoma mansoni.

Frontiers in parasitology Pub Date : 2023-11-16 eCollection Date: 2023-01-01 DOI:10.3389/fpara.2023.1285177

Evgeny G Chulkov, Claudia M Rohr, Jonathan S Marchant

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Abstract

Introduction: Praziquantel (PZQ), an anthelmintic drug discovered in the 1970s, is still used to treat schistosomiasis and various other infections caused by parasitic flatworms. PZQ causes a triad of phenotypic effects on schistosome worms - rapid depolarization, muscle contraction, and damage throughout the worm tegument. The molecular target mediating these effects has been intimated as a Ca²⁺-permeable ion channel, but native currents evoked by PZQ have not been reported in any schistosome cell type. The properties of the endogenous PZQ activated conductance therefore remain unknown.

Methods: Here, invasive electrophysiology was used to probe for responses to PZQ from different locales in a living schistosome worm.

Results and discussion: No direct response was seen in tegument-derived vesicles, or from the sub-tegumental muscle layer despite the presence of voltage-operated currents. However, PZQ rapidly triggered a sustained, non-selective cation current in recordings from neuronal tissue, targeting both the anterior ganglion and the main longitudinal nerve cord. The biophysical signature of this PZQ-evoked current resolved at single channel resolution matched that of a transient receptor potential ion channel named TRPM_PZQ, recently proposed as the molecular target of PZQ. The endogenous PZQ-evoked current was also inhibited by a validated TRPM_PZQ antagonist. PZQ therefore is a neuroactive anthelmintic, causing a sustained depolarization through ion channels with the characteristics of TRPM_PZQ.

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吡喹酮激活曼氏血吸虫的原生阳离子电流。

吡喹酮（PZQ）是20世纪70年代发现的一种驱虫药，目前仍用于治疗血吸虫病和由寄生扁虫引起的各种其他感染。PZQ引起血吸虫的三重表型效应-快速去极化，肌肉收缩和整个蠕虫被皮损伤。介导这些作用的分子靶点被认为是Ca2+渗透离子通道，但PZQ诱发的天然电流尚未在任何血吸虫细胞类型中报道。因此，内源性PZQ激活电导的性质仍然未知。方法：采用有创电生理方法检测活体血吸虫不同部位对PZQ的反应。结果和讨论：尽管存在电压操作电流，但在被膜源性囊泡或被膜下肌层未见直接反应。然而，PZQ在神经元组织的记录中迅速触发了持续的非选择性阳离子电流，目标是前神经节和主要的纵向神经索。该PZQ诱发电流在单通道分辨率下的生物物理特征与最近提出的PZQ分子靶点TRPMPZQ瞬时受体电位离子通道的生物物理特征相匹配。内源性pzq诱发电流也被一种有效的TRPMPZQ拮抗剂抑制。因此，PZQ是一种神经活性驱虫剂，通过具有TRPMPZQ特征的离子通道引起持续的去极化。

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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Frontiers in parasitology

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