在锡兰钩虫中诱导产生的阿苯达唑抗性并非由于β-微管蛋白基因第167、198或200位密码子的单核苷酸多态性（SNP），这表明存在另一种抗性机制。

Albendazole resistance induced in Ancylostoma ceylanicum is not due to single-nucleotide polymorphisms (SNPs) at codons 167, 198, or 200 of the beta-tubulin gene, indicating another resistance mechanism.

作者信息

Furtado Luis Fernando Viana, de Aguiar Pedro Henrique Nascimento, Zuccherato Luciana Werneck, Teixeira Talita Tatiana Guimarães, Alves William Pereira, da Silva Vivian Jordania, Gasser Robin B, Rabelo Élida Mara Leite

机构信息

Departamento de Parasitologia, L4 237, Laboratório de Parasitologia Molecular, Universidade Federal de Minas Gerais, Instituto de Ciências Biológicas, Avenida Presidente Antônio Carlos, 6627, Pampulha, CEP 31270-901, Belo Horizonte, Minas Gerais, Brazil.

Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Parkville, Victoria, 3010, Australia.

出版信息

Parasitol Res. 2019 Mar;118(3):837-849. doi: 10.1007/s00436-019-06218-9. Epub 2019 Jan 29.

DOI:10.1007/s00436-019-06218-9

PMID:30697644

Abstract

Mass drug administration has been implicated as the major cause of drug resistance in nematodes of ruminants. Single-nucleotide polymorphisms (SNPs) at codons 167, 198, and 200 of the beta-tubulin isotype 1 gene are associated with albendazole resistance mechanisms. Although drug resistance is suspected to occur in nematodes of the same order, at present, there is no evidence of a strong correlation between these canonical SNPs and albendazole resistance in hookworms. In the absence of a hookworm strain that is naturally resistant to albendazole, we produced an albendazole-resistant Ancylostoma ceylanicum strain by selective drug pressure. Restriction fragment length polymorphism-PCR (RFLP-PCR) was employed to identify the presence of SNPs previously associated with drug resistance in other nematodes. However, none of the benzimidazole resistance-associated SNPs known in other nematodes were found. A beta-tubulin isotype 1 gene mini-cDNA library was constructed to obtain the complete cDNA gene sequence for the analysis of the entire gene to identify distinct SNPs associated with resistance. Some SNPs were found, but the resulting sequences were not reproducibly detected among the different clones, preventing their association with the resistance mechanism. The parasitological and hematological parameters of the albendazole-resistant strain were characterized and compared to those of the sensitive strain. Although the albendazole-resistant strain was less adapted to its host, with fewer worms recovered, all other parameters analyzed were similar between both strains. The results of the present study indicate that the mechanism of albendazole resistance of the resistant strain described herein must differ from those that have previously been characterized. Thus, new mechanistic studies are needed in the future.

摘要

群体药物给药被认为是反刍动物线虫产生耐药性的主要原因。β-微管蛋白1型基因第167、198和200密码子处的单核苷酸多态性（SNP）与阿苯达唑耐药机制相关。虽然怀疑同一目的线虫会产生耐药性，但目前尚无证据表明这些典型的SNP与钩虫对阿苯达唑的耐药性之间存在强相关性。由于缺乏对阿苯达唑天然耐药的钩虫菌株，我们通过选择性药物压力培育出了一株对阿苯达唑耐药的锡兰钩口线虫菌株。采用限制性片段长度多态性聚合酶链反应（RFLP-PCR）来鉴定先前在其他线虫中与耐药性相关的SNP的存在。然而，在其他线虫中已知的与苯并咪唑耐药相关的SNP均未被发现。构建了一个β-微管蛋白1型基因微型cDNA文库，以获得完整的cDNA基因序列，用于分析整个基因，以鉴定与耐药性相关的独特SNP。发现了一些SNP，但在不同克隆中无法重复检测到所得序列，从而无法将它们与耐药机制联系起来。对阿苯达唑耐药菌株的寄生虫学和血液学参数进行了表征，并与敏感菌株进行了比较。虽然阿苯达唑耐药菌株对宿主的适应性较差，回收的虫体较少，但分析的所有其他参数在两个菌株之间相似。本研究结果表明，本文所述耐药菌株对阿苯达唑的耐药机制肯定与先前已表征的机制不同。因此，未来需要开展新的机制研究。

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在锡兰钩虫中诱导产生的阿苯达唑抗性并非由于β-微管蛋白基因第167、198或200位密码子的单核苷酸多态性（SNP），这表明存在另一种抗性机制。

Albendazole resistance induced in Ancylostoma ceylanicum is not due to single-nucleotide polymorphisms (SNPs) at codons 167, 198, or 200 of the beta-tubulin gene, indicating another resistance mechanism.

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