Suppression of a Spodoptera frugiperda (Sf9) cellular microRNA following Baculovirus infection and its role in the insect cell - virus interactions

IF 4.2 1区农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Pesticide Biochemistry and Physiology Pub Date : 2024-07-18 DOI:10.1016/j.pestbp.2024.106032

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引用次数: 0

Abstract

Baculoviruses have been extensively studied for their potential in microbial pest control, but the mechanisms behind their mode of action still need to be addressed. Here we report differential expression of a cellular miRNA, Sfr-miR-184, from Sf9 cells in response to Autographa californica multicapsid Nucleopolyhedrovirus (AcMNPV) infection. Our results showed that Sfr-miR-184 is down-regulated in AcMNPV-infected cells but not with UV-inactivated virus. Prohibitin gene was determined as a target of the miRNA, which was up-regulated following AcMNPV infection. Using synthetic miRNA mimic, we found that oversupply of the miRNA resulted in decreased transcript levels of the target gene. Results suggest that Sfr-miR-184 negatively regulate prohibitin transcripts in the host cells. Antibody-mediated inhibition and silencing of the prohibitin gene revealed significant reductions in virus DNA replication suggesting a possible role for prohibitin in the virus-host interaction. These findings highlight another molecular mechanism used by baculovirus to manipulate host cells for its replication.

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镰刀菌（Sf9）细胞微RNA在杆状病毒感染后的抑制作用及其在昆虫细胞-病毒相互作用中的作用

人们已经广泛研究了杆状病毒在微生物害虫控制方面的潜力，但其作用模式背后的机制仍有待研究。在此，我们报告了 Sf9 细胞中的一种细胞 miRNA（Sfr-miR-184）在自形花叶病毒（Autographa californica multicapsid Nucleopolyhedrovirus，AcMNPV）感染下的差异表达。我们的结果表明，Sfr-miR-184在AcMNPV感染的细胞中下调，而在紫外线灭活的病毒中不下调。Prohibitin 基因被确定为 miRNA 的靶基因，该基因在 AcMNPV 感染后上调。利用合成的 miRNA 模拟物，我们发现 miRNA 的过度供应会导致靶基因的转录水平下降。结果表明，Sfr-miR-184 负向调控宿主细胞中的禁止素转录本。抗体介导的禁止素基因抑制和沉默显示病毒 DNA 复制显著减少，这表明禁止素可能在病毒-宿主相互作用中发挥作用。这些发现凸显了杆状病毒用于操纵宿主细胞进行复制的另一种分子机制。

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来源期刊

Pesticide Biochemistry and Physiology 生物-昆虫学

CiteScore

7.00

自引率

8.50%

发文量

238

审稿时长

4.2 months

期刊介绍： Pesticide Biochemistry and Physiology publishes original scientific articles pertaining to the mode of action of plant protection agents such as insecticides, fungicides, herbicides, and similar compounds, including nonlethal pest control agents, biosynthesis of pheromones, hormones, and plant resistance agents. Manuscripts may include a biochemical, physiological, or molecular study for an understanding of comparative toxicology or selective toxicity of both target and nontarget organisms. Particular interest will be given to studies on the molecular biology of pest control, toxicology, and pesticide resistance. Research Areas Emphasized Include the Biochemistry and Physiology of: • Comparative toxicity • Mode of action • Pathophysiology • Plant growth regulators • Resistance • Other effects of pesticides on both parasites and hosts.