伊朗主要疟疾病媒雅典按蚊田间种群中与苯敌威抗药性相关的 Ace-1 靶点状态和代谢解毒作用

Pub Date : 2024-02-24 DOI:10.18502/jad.v17i3.14987
A. Badzohre, M. Oshaghi, A. Enayati, Seyed Hassan Moosa- Kazemi, S. H. Nikookar, F. Talebzadeh, Nazanin Naseri-Karimi, A. Hanafi-Bojd, Hassan Vatandoost
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引用次数: 0

摘要

背景:按蚊是伊朗的主要疟疾病媒。本研究旨在确定伊朗南部的步甲疟蚊对苯菌灵的敏感性,并研究该物种的生化和分子抗药性机制。方法:从霍尔木兹甘省采集野生山蚂蚁,饲养至成虫阶段。根据世卫组织的规程,使用世卫组织提供的浸渍过苯菌灵的纸张进行药敏试验。此外,还从克尔曼省、锡斯坦省和俾路支斯坦省南部采集了斯蒂芬斯蚁的野外标本。为了确定乙酰胆碱酯酶(Ace1)基因中的 G119S 突变,对三个野外种群使用 AluI 限制性酶进行了 PCR-RFLP 分析,并进行了 PCR 直接测序,然后与现有的 GenBank 数据进行了比较。此外,还进行了生化检测,以测定菌株中的α和β酯酶、不敏感乙酰胆碱酯酶和氧化酶。结果生物测定测试表明,田间蚁株对苯敌威具有抗性(死亡率为 89%)。Ace1 基因分析表明,三个田间种群中没有 G119S。序列的 Blast 搜索显示,与巴基斯坦和印度的 Ace1 基因的同一性分别为 98-99%。此外,生化测试结果显示,与易感菌株相比,抗性菌株的非敏感乙酰胆碱酯酶、α-酯酶和β-酯酶活性较高。除了酯酶和乙酰胆碱酯酶的酶活性增强外,本研究未检测到 G119S,这表明抗性是通过代谢产生的。结论建议在研究地区使用其他疟疾控制方法并实施抗药性管理策略。
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Ace-1 Target Site Status and Metabolic Detoxification Associated with Bendiocarb Resistance in the Field Populations of Main Malaria Vector, Anopheles stephensi in Iran
Background: Anopheles stephensi is the main vector of malaria in Iran. This study aimed to determine the susceptibility of An. stephensi from the south of Iran to bendiocarb and to investigate biochemical and molecular resistance mechanisms in this species. Methods: Wild An. stephensi were collected from Hormozgan Province and reared to the adult stage. The susceptibility test was conducted according to the WHO protocols using bendiocarb impregnated papers supplied by WHO. Also, field An. Stephensi specimens were collected from south of Kerman and Sistan and Baluchistan Provinces. To determine the G119S mutation in the acetylcholinesterase (Ace1) gene, PCR-RFLP using AluI restriction enzyme and PCR direct-sequencing were performed for the three field populations and compared with the available GenBank data. Also, bi­ochemical assays were performed to measure alpha and beta esterases, insensitive acetylcholinesterase, and oxidases in the strains. Results: The bioassay tests showed that the An. stephensi field strain was resistant to bendiocarb (mortality rate 89%). Ace1 gene analysis revealed no G119S in the three field populations. Blast search of sequences revealed 98–99% identity with the Ace1 gene from Pakistan and India respectively. Also, the results of biochemical tests revealed the high activity of non-sensitive acetylcholinesterase, alpha and beta-esterase in the resistant strain compared to the susceptible strain. No G119S was detected in this study additionally the enhanced enzyme activity of esterases and acetylcholinesterase sug­gesting that resistance was metabolic. Conclusion: The use of alternative malaria control methods and the implementation of resistance management strategies are suggested in the study area.
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