Oxidative DNA Damage and Apoptosis Induced by Aclarubicin, an Anthracycline: Role of Hydrogen Peroxide and Copper

Abstract

Background/aim: This study aimed to investigate aclarubicin (ACR)-induced oxidative DNA damage and apoptosis.

Materials and methods: ACR-induced apoptosis was analyzed using HL-60 leukemia cells and HP100 cells, hydrogen peroxide (H₂O₂)-resistant cells derived from HL-60 cells. ACR-induced DNA damage was analyzed using plasmid DNA.

Results: HL-60 cells were more sensitive to ACR than HP100 cells. In HP100 cells, DNA ladder formation and caspase-3/7 activity induced by ACR were suppressed or delayed in comparison to those in HL-60 cells. ACR-induced DNA damage occurred in the presence of Cu(II), and scavenger experiments showed that the reactive species causing DNA damage appeared to be generated from H₂O₂ and Cu(I). Moreover, we detected intracellular Cu(I) induced by ACR in HL-60 cells, using CopperGREEN™, a fluorescent probe for detection of Cu(I) ion specifically.

Conclusion: ACR-induced DNA damage and apoptosis can be accounted for by the involvement of H₂O₂ and Cu(I).

Keywords: Aclarubicin; DNA damage; ROS; apoptosis; copper; hydrogen peroxide.