AI Article Synopsis
- Mitochondrial NAD acts as a key electron transporter and co-factor for various enzymatic reactions, particularly in ADP-ribosylation, though its specific role in mitochondria is not well understood.
- Research reveals that mitochondrial ADP-ribosylation increases when the respiratory chain is inhibited and decreases under oxidative stress, suggesting a reversible response to cellular conditions.
- The study suggests a dynamic relationship between mitochondrial and nuclear ADP-ribosylation, where changes in mitochondrial ADP-ribosylation influence nuclear processes and highlight a potential NAD-mediated communication pathway between the two.
Article Abstract
In addition to its role as an electron transporter, mitochondrial nicotinamide adenine dinucleotide (NAD) is an important co-factor for enzymatic reactions, including ADP-ribosylation. Although mitochondria harbor the most intra-cellular NAD, mitochondrial ADP-ribosylation remains poorly understood. Here we provide evidence for mitochondrial ADP-ribosylation, which was identified using various methodologies including immunofluorescence, western blot, and mass spectrometry. We show that mitochondrial ADP-ribosylation reversibly increases in response to respiratory chain inhibition. Conversely, HO-induced oxidative stress reciprocally induces nuclear and reduces mitochondrial ADP-ribosylation. Elevated mitochondrial ADP-ribosylation, in turn, dampens HO-triggered nuclear ADP-ribosylation and increases MMS-induced ARTD1 chromatin retention. Interestingly, co-treatment of cells with the mitochondrial uncoupler FCCP decreases PARP inhibitor efficacy. Together, our results suggest that mitochondrial ADP-ribosylation is a dynamic cellular process that impacts nuclear ADP-ribosylation and provide evidence for a NAD-mediated mitochondrial-nuclear crosstalk.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7837215 | PMC |
| http://dx.doi.org/10.1016/j.molcel.2020.12.034 | DOI Listing |
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