Zitao Sun,Yanjin Wang,Xin Jin,Su Li ,Hua-Ji Qiu

Int J Mol Sci.2024 Aug 24;25(17):9206.doi: 10.3390/ijms25179206.

Review

Abstract

Mitochondria play pivotal roles in sustaining various biological functions including energy metabolism, cellular signaling transduction, and innate immune responses. Viruses exploit cellular metabolic synthesis to facilitate viral replication, potentially disrupting mitochondrial functions and subsequently eliciting a cascade of proinflammatory responses in host cells. Additionally, the disruption of mitochondrial membranes is involved in immune regulation. During viral infections, mitochondria orchestrate innate immune responses through the generation of reactive oxygen species (ROS) and the release of mitochondrial DNA, which serves as an effective defense mechanism against virus invasion. The targeting of mitochondrial damage may represent a novel approach to antiviral intervention. This review summarizes the regulatory mechanism underlying proinflammatory response induced by mitochondrial damage during viral infections, providing new insights for antiviral strategies.

Keywords: innate immunity; mitochondrial damage; mitochondrial dysfunction; proinflammatory responses.