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Dynamic Regulation of NF-κB Response in Innate Immunity: The Case of the IMD Pathway in Drosophila

Alexandre Cammarata-Mouchtouris, Adrian Acker, Akira Gotō, Di Chen, Nicolas Matt, Vincent Leclerc

2022Biomedicines37 citationsDOIOpen Access PDF

Abstract

Metazoans have developed strategies to protect themselves from pathogenic attack. These preserved mechanisms constitute the immune system, composed of innate and adaptive responses. Among the two kinds, the innate immune system involves the activation of a fast response. NF-κB signaling pathways are activated during infections and lead to the expression of timely-controlled immune response genes. However, activation of NF-κB pathways can be deleterious when uncontrolled. Their regulation is necessary to prevent the development of inflammatory diseases or cancers. The similarity of the NF-κB pathways mediating immune mechanisms in insects and mammals makes Drosophila melanogaster a suitable model for studying the innate immune response and learning general mechanisms that are also relevant for humans. In this review, we summarize what is known about the dynamic regulation of the central NF-κB-pathways and go into detail on the molecular level of the IMD pathway. We report on the role of the nuclear protein Akirin in the regulation of the NF-κB Relish immune response. The use of the Drosophila model allows the understanding of the fine-tuned regulation of this central NF-κB pathway.

Topics & Concepts

Innate immune systemDrosophila (subgenus)BiologyImmunityNF-κBNFKB1ImmunologyCell biologySignal transductionGeneticsImmune systemTranscription factorGeneInvertebrate Immune Response MechanismsAquaculture disease management and microbiotaInsect symbiosis and bacterial influences
Dynamic Regulation of NF-κB Response in Innate Immunity: The Case of the IMD Pathway in Drosophila | Litcius