Abstract
Doxorubicin is an anthracycline anticancer agent that functions primarily by inhibiting topoisomerase II, but also forms covalent DNA adducts depending on the cellular availability of formaldehyde. The combination of formaldehyde-releasing prodrugs (such as AN-9) with doxorubicin has been shown to result in synergistic doxorubicin–DNA adduct formation and synergistic apoptosis in HL-60 leukemic cells, offering the potential for lower concentrations of doxorubicin to be used clinically in order to minimize side-effects. However, the overexpression of Bcl-2 confers resistance to doxorubicin/AN-9 DNA adduct forming treatments, thus limiting the therapeutic potential of this drug combination. The small molecule inhibitor, ABT-737, which binds to and inhibits Bcl-2, Bcl-xL and Bcl-w, was used in combination with doxorubicin/AN-9 treatments to overcome resistance to doxorubicin–DNA adducts in Bcl-2 overexpressing HL-60 cells (HL-60/Bcl-2). The combination treatment of doxorubicin and AN-9 (and all single agent controls) failed to induce an apoptotic response in HL-60/Bcl-2 cells, however, the addition of low nanomolar (sub-lethal) concentrations of ABT-737 was able to greatly increase apoptosis levels. Various control compounds were used to demonstrate that the mechanism of cell kill in response to the ‘triple treatment’ (doxorubicin, AN-9 and ABT-737) is dependent on DNA adduct formation. Therefore, the ability of ABT-737 to inhibit Bcl-2 renders previously resistant HL-60 cancer cells highly sensitive to doxorubicin–DNA adducts, leading to a classical apoptotic response. In conclusion, the data obtained provides promising evidence that the anticancer activity of doxorubicin–DNA adducts can be substantially enhanced in Bcl-2 overexpressing cancers with the use of the small molecule Bcl-2 inhibitor, ABT-737.
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