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Hydrogen sulfide and DNA repair

Rodney E. Shackelford, Ekin Özlük, Mohammad Zahidul Islam, Brian D. Hopper, Andrew T. Meram, Ghali Ghali, Christopher G. Kevil

2020Redox Biology47 citationsDOIOpen Access PDF

Abstract

Recent evidence has revealed that exposing cells to exogenous H 2 S or inhibiting cellular H 2 S synthesis can modulate cell cycle checkpoints, DNA damage and repair, and the expression of proteins involved in the maintenance of genomic stability, all suggesting that H 2 S plays an important role in the DNA damage response (DDR). Here we review the role of H 2 S in the DRR and maintenance of genomic stability. Treatment of various cell types with pharmacologic H 2 S donors or cellular H 2 S synthesis inhibitors modulate the G 1 checkpoint, inhibition of DNA synthesis, and cause p21, and p53 induction. Moreover, in some cell models H 2 S exposure induces PARP-1 and g-H2AX foci formation, increases PCNA, CHK2, Ku70, Ku80, and DNA polymerase-d protein expression, and maintains mitochondrial genomic stability. Our group has also revealed that H 2 S bioavailability and the ATR kinase regulate each other with ATR inhibition lowering cellular H 2 S concentrations, whereas intracellular H 2 S concentrations regulate ATR kinase activity via ATR serine 435 phosphorylation. In summary, these findings have many implications for the DDR, for cancer chemotherapy, and fundamental biochemical metabolic pathways involving H 2 S.

Topics & Concepts

DNA damageDNA repairKu70Genome instabilityProliferating cell nuclear antigenPoly ADP ribose polymeraseCHEK1Ku80BiologyCell biologyCell cycleKinaseCell cycle checkpointDNAChemistryBiochemistryPolymeraseCellGeneDNA-binding proteinTranscription factorSulfur Compounds in BiologyFolate and B Vitamins ResearchAmino Acid Enzymes and Metabolism
Hydrogen sulfide and DNA repair | Litcius