NAD+review2021

NAD+-mediated regulation of mammalian base excision repair.

DNA repair

confidence

Key findings

Review of NAD+-mediated regulation of BER via PARP-NAD-SIRT axis; no clinical/biological endpoints reported.

View source on PubMed (PMID 33087267) ↗

Sample size
N/A
Population
Mammalian cells (review)
Dosing
N/A
Duration
N/A
Route
N/A
Blinding
not_reported
Controls
not_reported
Drug class
coenzyme
Full abstract

The enzymes of the base excision repair (BER) pathway form DNA lesion-dependent, transient complexes that vary in composition based on the type of DNA damage. These protein sub-complexes facilitate substrate/product handoff to ensure reaction completion so as to avoid accumulation of potentially toxic DNA repair intermediates. However, in the mammalian cell, additional signaling molecules are required to fine-tune the activity of the BER pathway enzymes and to facilitate chromatin/histone reorganization for access to the DNA lesion for repair. These signaling enzymes include nicotinamide adenine dinucleotide (NAD+) dependent poly(ADP-ribose) polymerases (PARP1, PARP2) and class III deacetylases (SIRT1, SIRT6) that comprise a key PARP-NAD-SIRT axis to facilitate the regulation and coordination of BER in the mammalian cell. Here, we briefly describe the key nodes in the BER pathway that are regulated by this axis and highlight the cellular and organismal variation in NAD+ bioavailability that can impact BER signaling potential. We discuss how cellular NAD+ is required for BER to maintain genome stability and to mount a robust cellular response to DNA damage. Finally, we consider the dependence of BER on the PARP-NAD-SIRT axis for BER protein complex assembly.

Research information, not medical advice. StudyKit summarizes published studies to help you understand your protocol. It does not diagnose, treat, or replace a clinician. Talk to a qualified provider before changing anything you take.