P-glycoprotein-mediated methotrexate resistance in CCRF-CEM sublines deficient in methotrexate accumulation due to a point mutation in the reduced folate carrier gene.

We have previously described a series of methotrexate (MTX)-selected CCRF-CEM sublines (CEM/MTX R1-3) displaying increased resistance to drugs associated with the multidrug resistance phenotype and have provided evidence that MDR1 P-glycoprotein contributes to multifactorial MTX resistance in these cells. We have also suggested that P-glycoprotein-mediated MTX transport arises in these cells due to a deficiency in the normal MTX transport route, the reduced folate carrier (RFC). We have now determined the nucleotide sequence of the RFC gene in CEM/MTX R1-3 cells and confirm that the carrier is defective in these cells as a result of a premature stop mutation at codon 99, which severely truncates the encoded protein. CEM/MTX R3 cells were removed from MTX, and a series of sublines with increasing MDR1 expression were derived, following selection with vincristine. These cells show increasing cross-resistance to vincristine as well as other drugs associated with the multidrug resistance phenotype. More importantly, the increased P-glycoprotein expression correlates with increased resistance to MTX, supporting the hypothesis that in cells with a defective carrier protein, MTX can become a substrate for P-glycoprotein. Our data have implications for the P-glycoprotein-mediated transport of other hydrophilic drugs in situations where the relevant carrier protein has been functionally inhibited.