Two independent regulatory mechanisms synergistically contribute to P450-mediated insecticide resistance in a lepidopteran pest, Spodoptera exigua.

IF 4.4 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-05-09 DOI:10.1186/s12915-025-02228-5

Bo Hu, Yuting Zhang, Zhiping Xing, Xiangzhu Chen, Cong Rao, Kuitun Liu, Anjiang Tan, Jianya Su

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Abstract

Background: Cytochrome P450 enzymes play a pivotal role in the detoxification of plant allelochemicals and insecticides. Overexpression of P450 genes has been proven to be involved in insecticide resistance in insects. However, the molecular mechanisms underlying the regulation of P450 genes in insects are poorly understood.

Results: Here, we determine that upregulation of CYP321B1 confers resistance to organophosphate (chlorpyrifos) and pyrethroid (cypermethrin and deltamethrin) insecticides in the resistant Spodoptera exigua strain. Enhanced expression of transcription factors CncC/Maf contributes to the increase in the expression of CYP321B1 in the resistant strain. Reporter gene assays and site-directed mutagenesis analyses confirm that a specific binding site is crucial for binding CncC/Maf to activate the expression of CYP321B1. In addition, creation of a new binding site resulting from the cis-mutations in the promoter region of CYP321B1 in the resistant strain facilitates the binding of the POU/homeodomain transcription factor Nubbin, and further enhances the expression of this P450 gene. Furthermore, we authenticate that changes in both trans- and cis-regulatory elements in the promoter region of CYP321B1 act in combination to modulate the promoter activity in a synergistic manner.

Conclusions: Collectively, these results demonstrate that two distinct but synergistic mechanisms coordinately result in the overexpression of CYP321B1 involved in insecticide resistance in an agriculturally important insect pest, S. exigua. The information on mechanisms of metabolic resistance could help to understand the development of resistance to insecticides by other pests and contribute to designing effective integrated pest management strategies for the pest control.

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两种独立的调控机制协同促进了p450介导的鳞翅目害虫——夜蛾的杀虫剂抗性。

背景：细胞色素P450酶在植物化感物质和杀虫剂的解毒中起着关键作用。P450基因的过表达已被证实与昆虫对杀虫剂的抗性有关。然而，昆虫中P450基因调控的分子机制尚不清楚。结果：本研究发现，CYP321B1基因表达上调可使抗性夜蛾菌株对有机磷（毒死蜱）和拟除虫菊酯（氯氰菊酯和溴氰菊酯）产生抗性。转录因子CncC/Maf的表达增强有助于抗性菌株中CYP321B1的表达增加。报告基因检测和定点诱变分析证实，一个特定的结合位点对于结合CncC/Maf激活CYP321B1的表达至关重要。此外，抗性菌株CYP321B1启动子区域的顺式突变导致新的结合位点的产生，促进了POU/同源结构域转录因子Nubbin的结合，进一步增强了P450基因的表达。此外，我们证实CYP321B1启动子区域的反式和顺式调控元件的变化以协同方式共同调节启动子活性。结论：总的来说，这些结果表明，两种不同但协同的机制协调导致CYP321B1过表达参与了农业重要害虫S. exigua的杀虫剂抗性。研究代谢性耐药机制有助于了解其他害虫对杀虫剂的抗性发展，为制定有效的害虫综合防治策略提供依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.