Calcium channels of schistosomes: unresolved questions and unexpected answers.

Wiley interdisciplinary reviews. Membrane transport and signaling Pub Date : 2012-01-01 DOI:10.1002/wmts.19

Vicenta Salvador-Recatalà, Robert M Greenberg

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引用次数: 37

Abstract

Parasitic flatworms of the genus Schistosoma are the causative agents of schistosomiasis, a highly prevalent, neglected tropical disease that causes significant morbidity in hundreds of millions of people worldwide. The current treatment of choice against schistosomiasis is praziquantel (PZQ), which is known to affect Ca(2+) homeostasis in schistosomes, but which has an undefined molecular target and mode of action. PZQ is the only available antischistosomal drug in most parts of the world, making reports of PZQ resistance particularly troubling. Voltage-gated Ca(2+) (Ca(v)) channels have been proposed as possible targets for PZQ, and, given their central role in the neuromuscular system, may also serve as targets for new anthelmintic therapeutics. Indeed, ion channels constitute the majority of targets for current anthelmintics. Ca(v) channel subunits from schistosomes and other platyhelminths have several unique properties that make them attractive as potential drug targets, and that could also provide insights into structure-function relationships in, and evolution of, Ca(v) channels.

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血吸虫的钙通道:未解决的问题和意想不到的答案。

血吸虫属的寄生扁形虫是血吸虫病的病原体。血吸虫病是一种高度流行但被忽视的热带疾病，在全世界数亿人中造成严重发病率。目前治疗血吸虫病的首选药物是吡喹酮(PZQ)，已知吡喹酮会影响血吸虫体内Ca(2+)的稳态，但其分子靶点和作用方式尚未明确。PZQ是世界上大多数地区唯一可用的抗血吸虫药物，这使得PZQ耐药的报告尤其令人不安。电压门控Ca(2+) (Ca(v))通道被认为是PZQ的可能靶点，并且，鉴于它们在神经肌肉系统中的核心作用，也可能作为新的驱虫疗法的靶点。事实上，离子通道构成了目前驱虫剂的大部分靶点。来自血吸虫和其他扁蠕虫的Ca(v)通道亚基具有一些独特的特性，使它们成为潜在的药物靶点，这也可以为Ca(v)通道的结构-功能关系和进化提供见解。

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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Wiley interdisciplinary reviews. Membrane transport and signaling

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