Article ID Journal Published Year Pages File Type
5501820 Free Radical Biology and Medicine 2017 12 Pages PDF
Abstract

•The current knowledge on the DNA repair mechanisms that occur in the mitochondria.•Emphasized that nuclear genes are translocated to the mitochondria for the purposes of repair and mitochondrial genome maintenance.•Compiled a summary of the signaling that occurs between the nucleus and the mitochondria in the event of DNA damage and mitochondrial dysfunction.

The electron transport chain is the primary pathway by which a cell generates energy in the form of ATP. Byproducts of this process produce reactive oxygen species that can cause damage to mitochondrial DNA. If not properly repaired, the accumulation of DNA damage can lead to mitochondrial dysfunction linked to several human disorders including neurodegenerative diseases and cancer. Mitochondria are able to combat oxidative DNA damage via repair mechanisms that are analogous to those found in the nucleus. Of the repair pathways currently reported in the mitochondria, the base excision repair pathway is the most comprehensively described. Proteins that are involved with the maintenance of mtDNA are encoded by nuclear genes and translocate to the mitochondria making signaling between the nucleus and mitochondria imperative. In this review, we discuss the current understanding of mitochondrial DNA repair mechanisms and also highlight the sensors and signaling pathways that mediate crosstalk between the nucleus and mitochondria in the event of mitochondrial stress.

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