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Mitochondrial DNA leakage: underlying mechanisms and therapeutic implications in neurological disorders

Guangming Zhang, Huayuan Wei, Anliu Zhao, Yan Xu, Xiaolu Zhang, Jiali Gan, Maojuan Guo, Jie Wang, Fayan Zhang, Yifang Jiang, Xinxing Liu, Zhen Yang, Xijuan Jiang

2025Journal of Neuroinflammation58 citationsDOIOpen Access PDF

Abstract

Mitochondrial dysfunction is a pivotal instigator of neuroinflammation, with mitochondrial DNA (mtDNA) leakage as a critical intermediary. This review delineates the intricate pathways leading to mtDNA release, which include membrane permeabilization, vesicular trafficking, disruption of homeostatic regulation, and abnormalities in mitochondrial dynamics. The escaped mtDNA activates cytosolic DNA sensors, especially cyclic gmp-amp synthase (cGAS) signalling and inflammasome, initiating neuroinflammatory cascades via pathways, exacerbating a spectrum of neurological pathologies. The therapeutic promise of targeting mtDNA leakage is discussed in detail, underscoring the necessity for a multifaceted strategy that encompasses the preservation of mtDNA homeostasis, prevention of membrane leakage, reestablishment of mitochondrial dynamics, and inhibition the activation of cytosolic DNA sensors. Advancing our understanding of the complex interplay between mtDNA leakage and neuroinflammation is imperative for developing precision therapeutic interventions for neurological disorders.

Topics & Concepts

NeuroinflammationMitochondrial DNABiologyMitochondrionCell biologyInflammasomeCytosolNeuroscienceBioinformaticsGeneticsGeneImmunologyBiochemistryInflammationReceptorEnzymeMitochondrial Function and Pathologyinterferon and immune responsesInflammasome and immune disorders
Mitochondrial DNA leakage: underlying mechanisms and therapeutic implications in neurological disorders | Litcius