The mechanisms were examined that underlie the extreme resistance to methotrexate (MTX) by near diploid leukemic T-cells (LALW-2) exposed to the drug only during the course of therapy administered to the patient of origin. Despite the LALW-2 cells being highly resistant to MTX (inhibitory dose for 50% of cells, more than 10(-3) mol/l), southern blot analysis did not show any amplification of the dihydrofolate reductase gene, nor was there any evidence, by comparison with drug-sensitive CCRF-CEM cells, that the gene was overexpressed. Kinetic analysis of dihydrofolate reductase activity in the presence of MTX provided no basis for attributing resistance in LALW-2 cells to a change in enzyme structure. By contrast, studies of MTX accumulation revealed that the LALW-2 cells accumulated significantly less drug than either CCRF-CEM cells or a MTX-resistant CCRF-CEM subline with a characterized transport defect. These data suggest that extreme MTX resistance in LALW-2 cells is mediated by reduced drug accumulation in the absence of any effect on the target enzyme.