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The JAK-STAT and NF-κB pathways are conserved cellular signaling cascades orchestrating a variety of biological processes. The regulatory interactions between these two pathways have been well studied in vertebrates but less concerned in invertebrates, hindering further understanding of immune signaling evolution. The Pacific white shrimp Litopenaeus vannamei is now an important model for studying invertebrate immunity and cellular signaling mechanisms. In this study, the microRNA-1 (miR-1) molecule from L. vannamei was identified, and its mature and precursor sequences were analyzed. The miR-1 promoter contained a STAT binding site and its transcriptional activity could be regulated by the JAK-STAT pathway. The target gene of miR-1 was identified as MyD88, the upstream component of the Dorsal (the NF-κB homolog) pathway. By suppressing the expression of MyD88, miR-1 attenuated activation of the Dorsal pathway. With miR-1 as the mediator, STAT also exerted a negative regulatory effect on the Dorsal pathway. Moreover, miR-1 was involved in regulation of the expression of a set of immune effector genes and the phagocytic activity of hemocytes and had an inhibitory or excitatory effect on antibacterial or antiviral responses, respectively. Taken together, the current study revealed a microRNA-mediated inhibition of the NF-κB pathway by the JAK-STAT pathway in an invertebrate, which could contribute to immune homeostasis and shaping immune responses.

A MicroRNA-1–Mediated Inhibition of the NF-κB Pathway by the JAK-STAT Pathway in the Invertebrate Litopenaeus vannamei