Optimizing the xWORM assay for monitoring hookworm larvae motility

Danica Lennox-Bulow, Luke Becker, A. Loukas, J. Seymour, M. Smout
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Abstract

Parasitic worms (helminths) infect almost all taxa across the animal kingdom, and pose significant challenges to public health and economies, particularly in developing countries. To address this problem, researchers have developed various tools to measure the motility and viability of helminths. However, the conditions used in anthelmintic screening assays are often not optimized, and can vary considerably between research teams. These unoptimized conditions may impact novel drug screens, as little is known about the effects of different conditions on the health of the target parasites. To improve future research, this study determined the effects of key assay parameters including, media type, media concentration, in-well parasite density, and assay duration on the infective third-stage larva (L3) of two types of hookworms, namely Nippostrongylus brasiliensis in rodents, and Necator americanus in humans. Conditions were screened over several days using the xCELLigence worm real-time motility assay (xWORM); a real-time impedance-based helminth motility assay using the xCELLigence system with 96-well microplates. While results varied depending on the species and media used, the study found that 500–1,000 L3/200-µL and a media concentration of 3.13–25% generally produced good to excellent assay conditions. The findings of this study can guide the future selection of xWORM assay parameters for novel drug trials involving these parasite species and serve as a suggested model for optimizing trial conditions for alternative parasite targets and assays.
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xWORM检测钩虫幼虫运动能力的优化
寄生虫(蠕虫)几乎感染了动物界的所有分类群,对公共卫生和经济构成了重大挑战,尤其是在发展中国家。为了解决这个问题,研究人员开发了各种工具来测量蠕虫的活动性和生存能力。然而,驱虫筛选试验中使用的条件往往没有得到优化,研究团队之间的差异可能很大。这些未优化的条件可能会影响新的药物筛选,因为人们对不同条件对目标寄生虫健康的影响知之甚少。为了改进未来的研究,本研究确定了包括培养基类型、培养基浓度、井内寄生虫密度和检测持续时间在内的关键检测参数对两种钩虫感染第三期幼虫(L3)的影响,这两种钩体分别是啮齿类钩虫的巴西乳头虫和人类的美洲钩虫。使用xCELLigence蠕虫实时运动测定法(xWORM)在几天内筛选条件;使用具有96孔微孔板的xCELLigence系统的基于阻抗的蠕虫运动性实时测定。虽然结果因所用的物种和培养基而异,但研究发现,500–1000 L3/200-µL和3.13–25%的培养基浓度通常能产生良好至良好的测定条件。这项研究的发现可以指导未来针对这些寄生虫物种的新药试验选择xWORM测定参数,并作为优化替代寄生虫靶标和测定试验条件的建议模型。
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