Litcius/Paper detail

Crosstalk between mitophagy and innate immunity in viral infection

Cheng Fu, Nan Cao, Wenjun Liu, Zilin Zhang, Zihui Yang, Wenhui Zhu, Shuangqi Fan

2022Frontiers in Microbiology24 citationsDOIOpen Access PDF

Abstract

Mitochondria are important organelles involved in cell metabolism and programmed cell death in eukaryotic cells and are closely related to the innate immunity of host cells against viruses. Mitophagy is a process in which phagosomes selectively phagocytize damaged or dysfunctional mitochondria to form autophagosomes and is degraded by lysosomes, which control mitochondrial mass and maintain mitochondrial dynamics and cellular homeostasis. Innate immunity is an important part of the immune system and plays a vital role in eliminating viruses. Viral infection causes many physiological and pathological alterations in host cells, including mitophagy and innate immune pathways. Accumulating evidence suggests that some virus promote self-replication through regulating mitophagy-mediated innate immunity. Clarifying the regulatory relationships among mitochondria, mitophagy, innate immunity, and viral infection will shed new insight for pathogenic mechanisms and antiviral strategies. This review systemically summarizes the activation pathways of mitophagy and the relationship between mitochondria and innate immune signaling pathways, and then discusses the mechanisms of viruses on mitophagy and innate immunity and how viruses promote self-replication by regulating mitophagy-mediated innate immunity.

Topics & Concepts

MitophagyInnate immune systemBiologyCrosstalkCell biologyIntrinsic immunityMitochondrionImmunityAutophagyImmune systemImmunologyApoptosisGeneticsOpticsPhysicsAutophagy in Disease and TherapyImmune cells in cancerInflammasome and immune disorders