Mitoxantrone-induced DNA damage in leukemia cells is enhanced by treatment with high-dose arabinosylcytosine.

In a phase II study, patients with chronic myelogenous leukemia in blast crisis (CML-BC) were treated with intravenous (IV) mitoxantrone (5 mg/m2 per day given over 30 min x 5 days and high-dose arabinosylcytosine (ara-C) (3 g/m2 IV q 12 h x 6). The effect of this treatment on DNA damage was studied in the leukemia cells of four patients using the alkaline elution technique modified to measure DNA in unlabeled human cells. A fluorescence assay using Hoechst 33258 dye was applied for the determination of eluted DNA. After a single infusion of mitoxantrone, neither frank nor protein-associated single-strand breaks (SSB) were observed. Even repeated treatment with mitoxantrone on 3 consecutive days did not induce significant SSB. However, after the combined sequential infusion of ara-C and mitoxantrone the DNA elution pattern changed, showing significant DNA damage. SSB remained apparent after 24 h and increased with subsequent doses of ara-C and mitoxantrone. Studies of other patients treated with ara-C alone did not reveal significant SSB (n = 5). Following mitoxantrone infusion the median peak concentrations of intracellular ara-CTP (the triphosphate of ara-C) exceeded 900 microM, a value greater than that observed in CML-BC patients receiving ara-C alone (230 microM, n = 15, P less than 0.02). The present study shows the applicability of the alkaline elution method for the assay of DNA damage in vivo. The enhanced DNA damage after combined treatment with mitoxantrone and high-dose ara-C suggests a synergistic drug effect.