Novel_circ_002651 regulates the immune defense of eastern honeybee larvae against fungal invasion through sponging miR-6001-y

基因敲除 生物 基因沉默 RNA干扰 免疫系统 下调和上调 病菌 基因 寄主(生物学) 微生物学 幼虫 基因表达 RNA沉默 细胞生物学 小干扰RNA 小RNA 基因表达调控 先天免疫系统 免疫 真菌病原 表型 免疫学 遗传学 防御机制 报告基因
作者
Kaiyao Zhang,Fangji Wang,Nian Fan,Xiaoxue Fan,Tao Wu,Yaqin Geng,Xinrui Chen,Jianfeng Qiu,Zhongmin Fu,Dafu Chen,Rui Guo
出处
期刊: [Figshare (United Kingdom)]
标识
DOI:10.6084/m9.figshare.31942568.v1
摘要

While high-throughput sequencing and bioinformatic predictions have identified numerous circRNAs in honeybees, research into their functional roles and molecular mechanisms remains limited. This study aims to characterize the regulatory functions of a previously identified circRNA (novel_circ_002651, ac2651) and its key target miRNA (ace-miR-6001-y), in eastern honeybee worker larvae respondi ng to infection by A. apis, a causative fungal pathogen for chalkbrood disease. Here, RT-qPCR detection showed that the expression of ac2651 was significantly down-regulated in the 6-day-old larval gut, while the ace-miR-6001-y expression exhibited a opposite trend. RNAi-based interference of ac2651 significantly increased the expression of both host immune genes and fungal proliferation-associated genes. Additionally, silencing ac2651 resulted in a reduction of host survival rate and a significant elevation of chalkbrood incidence. Overexpression and knockdown experiments demonstrated that ace-miR-6001-y negatively regulated the expression of dorsal in the larval guts and affected the expression of mat1-2-1, Ste11-like, and Htf in A. apis. Dual-luciferase reporter assay confirmed direct interactions between ac2651 and ace-miR-6001-y as well as between ace-miR-6001-y and Ac14-3-3ζ. It’s validated that simultaneous ac2651 silencing and ace-miR-6001-y knockdown reversed the upregulation of Ac14-3-3ζ induced by ace-miR-6001-y knockdown alone. These results delineate a novel regulatory axis wherein ac2651 sponges ace-miR-6001-y to alleviate its repression of Ac14-3-3ζ, thereby activating the host immune defense against the A. apis infection. Our findings not only offer novel insights into the interaction between honeybee larvae and fungal pathogen, but also provide promising biomarkers and targets for the diagnosis and treatment of chalkbrood.
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