Formation of a repair enzyme complex is beneficial to DNA repair. Despite cellular studies showed that mitochondrial DNA polymerase (Pol ) and poly(ADP-ribose) polymerase 1 (PARP1) were found in the same complex along with other mitochondrial DNA repair enzymes and mitochondrial PARP1 level is correlated with mtDNA integrity, the molecular basis for the functional connection between Pol and PARP1 has not been illustrated, because cellular functions of PARP1 in DNA repair are intertwined with metabolism via NAD+ (nicotinamide adenosine dinucleotide), the substrate of PARP1 and a metabolic cofactor. To dissect the direct effect of PARP1 on mtDNA from the secondary perturbation metabolism, we report here biochemical studies that recapitulated Pol PARylation observed in cells, showed that PARP1 regulates Pol activity during DNA repair in a metabolic cofactor NAD+ (nicotinamide adenosine dinucleotide)-dependent manner. In the absence of NAD+, PARP1 completely inhibits Pol, while increasing NAD+ level to physiological concentration enables Pol to resume maximum repair activity. Because cellular NAD+ levels are linked to metabolism and to ATP production via oxidative phosphorylation, our results suggest that mtDNA damage repair is correlated with cellular metabolic state and integrity of the respiratory chain.
[doi:10.25345/C57F52]
[dataset license: CC0 1.0 Universal (CC0 1.0)]
Keywords: ARP1, PAR, hydroxylamine, DNA polymerase gamma, DNA repair
Principal Investigators: (in alphabetical order) |
Whitney Yin, UTMB, United States |
Submitting User: | Bill |
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