The calpain-suppressing effects of olesoxime in Huntington's disease.

Rare diseases (Austin, Tex.) Pub Date : 2016-04-06 eCollection Date: 2016-01-01 DOI:10.1080/21675511.2016.1153778
Jonasz J Weber, Midea M Ortiz Rios, Olaf Riess, Laura E Clemens, Huu P Nguyen
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引用次数: 15

Abstract

Olesoxime, a small molecule drug candidate, has recently attracted attention due to its significant beneficial effects in models of several neurodegenerative disorders including Huntington's disease. Olesoxime's neuroprotective effects have been assumed to be conveyed through a direct, positive influence on mitochondrial function. In a long-term treatment study in BACHD rats, the latest rat model of Huntington's disease, olesoxime revealed a positive influence on mitochondrial function and improved specific behavioral and neuropathological phenotypes. Moreover, a novel target of the compound was discovered, as olesoxime was found to suppress the activation of the calpain proteolytic system, a major contributor to the cleavage of the disease-causing mutant huntingtin protein into toxic fragments, and key player in degenerative processes in general. Results from a second model of Huntington's disease, the Hdh (Q111) knock-in mouse, confirm olesoxime's calpain-suppressing effects and support the therapeutic value of olesoxime for Huntington's disease and other disorders involving calpain overactivation.

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磺肟在亨廷顿氏病中的calpain抑制作用。
Olesoxime是一种小分子候选药物,由于其在包括亨廷顿病在内的几种神经退行性疾病模型中具有显著的有益作用,最近引起了人们的关注。oles肟的神经保护作用被认为是通过对线粒体功能的直接、积极的影响来传达的。在最新的亨廷顿病大鼠模型BACHD大鼠的长期治疗研究中,磺肟显示出对线粒体功能的积极影响,并改善了特定的行为和神经病理表型。此外,研究人员还发现了该化合物的一个新靶点,即硫代肟可以抑制钙蛋白酶水解系统的激活,钙蛋白酶水解系统是致病突变的亨廷顿蛋白裂解成有毒片段的主要因素,并且在一般的退行性过程中起关键作用。来自第二种亨廷顿病模型,Hdh (Q111)敲入小鼠的结果证实了oles肟的钙蛋白酶抑制作用,并支持oles肟对亨廷顿病和其他涉及钙蛋白酶过度激活的疾病的治疗价值。
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