Quantitative tests of albendazole resistance in Caenorhabditis elegans beta-tubulin mutants

J.B. Collins , Skyler A. Stone , Emily J. Koury , Anna G. Paredes , Fiona Shao , Crystal Lovato , Michael Chen , Richelle Shi , Anwyn Y. Li , Isa Candal , Khadija Al Moutaa , Nicolas D. Moya , Erik C. Andersen
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Abstract

Benzimidazole (BZ) anthelmintics are among the most important treatments for parasitic nematode infections in the developing world. Widespread BZ resistance in veterinary parasites and emerging resistance in human parasites raise major concerns for the continued use of BZs. Knowledge of the mechanisms of resistance is necessary to make informed treatment decisions and circumvent resistance. Benzimidazole resistance has traditionally been associated with mutations and natural variants in the C. elegans beta-tubulin gene ben-1 and orthologs in parasitic species. However, variants in ben-1 alone do not explain the differences in BZ responses across parasite populations. Here, we examined the roles of five C. elegans beta-tubulin genes (tbb-1, mec-7, tbb-4, ben-1, and tbb-6) in the BZ response as well as to determine if another beta-tubulin acts redundantly with ben-1. We generated C. elegans strains with a loss of each beta-tubulin gene, as well as strains with a loss of tbb-1, mec-7, tbb-4, or tbb-6 in a genetic background that also lacks ben-1. We found that the loss of ben-1 conferred the maximum level of resistance following exposure to a single concentration of albendazole, and the loss of a second beta-tubulin gene did not alter the level of resistance. However, additional traits other than larval development could be affected by the loss of additional beta-tubulins, and the roles of other beta-tubulin genes might be revealed at different albendazole concentrations. Therefore, further work is needed to fully define the possible roles of other beta-tubulin genes in the BZ response.

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定量检测秀丽隐杆线虫β-微管蛋白突变体对阿苯达唑的抗性。
苯并咪唑(BZ)抗蠕虫药是发展中国家治疗寄生线虫感染的最重要药物之一。兽用寄生虫中广泛存在的 BZ 抗药性和人类寄生虫中新出现的抗药性引起了人们对继续使用 BZ 的极大担忧。要做出明智的治疗决定并避免产生抗药性,就必须了解抗药性的产生机制。苯并咪唑的抗药性传统上与寄生虫物种中的蝶形虫β-微管蛋白基因 ben-1 和直向同源物的突变和自然变异有关。然而,仅仅是 ben-1 的变异并不能解释不同寄生虫种群对 BZ 反应的差异。在此,我们研究了 elegans 的五个 beta-微管蛋白基因(tbb-1、mec-7、tbb-4、ben-1 和 tbb-6)在 BZ 反应中的作用,并确定是否有另一种 beta-微管蛋白与 ben-1 起着冗余作用。我们在同样缺乏苄-1的遗传背景下,产生了每种β-微管蛋白基因缺失的 elegans 株系,以及 tbb-1、mec-7、tbb-4 或 tbb-6 基因缺失的株系。我们发现,在暴露于单一浓度的阿苯达唑后,ben-1基因的缺失会产生最大程度的抗性,而第二个β-微管蛋白基因的缺失不会改变抗性水平。然而,除幼虫发育外,其他性状也可能受到其他β-微管蛋白缺失的影响,而且在不同的阿苯达唑浓度下,其他β-微管蛋白基因的作用也可能显现出来。因此,还需要进一步研究,以全面确定其他 beta-微管蛋白基因在 BZ 反应中可能发挥的作用。
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来源期刊
CiteScore
7.90
自引率
7.50%
发文量
31
审稿时长
48 days
期刊介绍: The International Journal for Parasitology – Drugs and Drug Resistance is one of a series of specialist, open access journals launched by the International Journal for Parasitology. It publishes the results of original research in the area of anti-parasite drug identification, development and evaluation, and parasite drug resistance. The journal also covers research into natural products as anti-parasitic agents, and bioactive parasite products. Studies can be aimed at unicellular or multicellular parasites of human or veterinary importance.
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