Effects of arsenic trioxide (As2O3) on leukemic cells from patients with non‐M3 acute myelogenous leukemia: studies of cytotoxicity, apoptosis and the pattern of resistance

Abstract

Arsenic oxide (As₂O₃) has recently been reported to induce remission in a high percentage of patients with acute promyelocytic leukemia (APL). The aim of this study was to investigate the effects of As₂O₃ at therapeutic concentrations on cell viability and apoptosis on leukemic cells from patients with non‐M3 acute myelogenous leukemia (AML) and to study the resistance profile compared to conventional AML drugs. Cells from 20 patients were exposed to therapeutic concentrations of As₂O₃ continuously for 96h. As₂O₃ reduced the viability in blast cells from all the 20 tested patients compared to unexposed controls (p‐value: 0.02 at 0.05 µM; 2O₃. Parallel to the incubation with arsenic the in vitro sensitivity to a number of chemotherapeutic agents commonly used in AML was studied. Correlation coefficients for the in vitro sensitivity were highly significant between the conventional AML drugs except for Ara‐C. For As₂O₃, all the correlation coefficients were negative and ranged between −0.05 and −0.51. Furthermore, increased P‐gp expression in a multidrug resistant HL‐60 cell line did not decrease the sensitivity to As₂O₃ as compared to the parental cell line. Neither did a P‐gp‐transfected variant of the K562 cell line show decreased sensitivity to As₂O₃. We conclude that As₂O₃ at therapeutic concentrations induces apoptosis and cytotoxic effects in blast cells from patients with non‐M3 AML, and that As₂O₃ differs from conventional AML drugs with respect to the mechanisms that confer resistance to the drugs.