Rapid suppression of multidrug resistance of leukemic cells by oxidative srtess

Abstract

The effect of a short-time (1 h) oxidative stress on multidrug resistance (MDR) of murine leukemic P388VR cells has been investigated. We studied the production of reactive oxygen species (ROS) in cells depending on the composition of medium and the concentration of cells and hydrogen peroxide, as well as the effect of hydrogen peroxide on MDR of cells. MDR was determined from the transport of calcein acetoxymethyl ester out of the cells and from a change in cell sensitivity to vincristine. The amount of ROS arising in cells was determined using 2′,7′-dichlorodihydrofluorescein diacetate (DCFH2-DA). It was shown that the rate of ROS formation in cells decreases after the addition of serum to the medium and with an increase of the cell number. By the action of hydrogen peroxide, the amount of ROS increases directly with its concentration. Oxidative stress generated by 30–300 μM hydrogen peroxide decreases the MDR of the cells. The effect of hydrogen peroxide increases with the treatment duration and concentration of hydrogen peroxide. MDR determined by the criterion of the efflux of calcein ester from cells is completely suppressed after 1-h exposure to 300 μM hydrogen peroxide. At a concentration of hydrogen peroxide of 60 μM and treatment duration of 1 h, the sensitivity of P388VR cells to vincristine increases to reach the sensitivity of the wild-type P388 cells. Rapid (about 1 h) suppression of MDR is caused by inhibition of the activity of transport proteins. MDR decrease induced by oxidative stress can be used in therapy of tumors resistant to anticancer drugs.