The decrease of the intracellular concentration of drug in resistant cells as compared to sensitive cells is, in most of cases, correlated with the presence, in the membrane of resistant cells, of a 170-kDa P-glycoprotein (P-gp) responsible for an active efflux of the drug. The fluorescence emission spectra from anthracycline-treated cells suspended in buffer have been used to follow the P-gp-associated efflux of these drugs in the absence or presence of verapamil. In the present study, 4'-o-tetrahydro-pyranyladriamycin (THP-adriamycin) was used. Two different methods were used to determine the kinetics of active efflux of THP-adriamycin: (1) at the steady-state, (2) directly, after the addition of glucose to cells first incubated with THP-adriamycin in the presence of N3- and in the absence of glucose. Kinetic analysis indicates: (1) a saturation of the active efflux when the cytosolic free drug concentration increased (the Michaelis constant Km = 0.5 +/- 0.3 microM) and (2) that the inhibitory effect of verapamil on P-gp-associated efflux of THP-adriamycin in living cells is non-competitive.