Abstract

The efficacy of MS-209, a quinoline derivative synthesized as a new multidrug resistance (MDR)-reversing agent, was studied on blast cells from 33 acute myelogenous leukaemia (AML) patients and on the human myelogenous leukaemia K562 cell line resistant to adriamycin (K562/ADM). By the addition of MS-209, the intracellular daunorubicin (DNR) contents which had been found to be low in P-gp-positive AML blasts and in K562/ADM were significantly enhanced to the level of P-gp-negative blasts and that of sensitive K562. The intracellular rhodamine (Rh123) contents also increased in P-gp-positive blasts and K562/ADM cells with MS-209. A leukaemic blast colony assay also demonstrated the effect of MS-209, i.e. a high D10 value for DNR of P-gp-positive blasts was reduced to the D10 level similar to that observed in P-gp-negative blasts by the addition of MS-209. The greater DNR sensitivity reversing effect of MS-209 was observed in blasts with higher P-gp positivity. These findings suggest the potential usefulness of MS-209 in overcoming MDR in AML patients, especially those with high P-gp expression. This study clarified the relationship between the clinical outcome of the patients and the P-gp positivity, intracellular DNR content and DNR drug sensitivity of leukaemic progenitors.