Activity of free and carrier-bound methotrexate against transport-deficient and high dihydrofolate dehydrogenase-containing methotrexate-resistant L1210 cells.

A difference in the mechanism of transmembrane transport was demonstrated for methotrexate (MTX) and MTX bound to the high molecular weight carrier bovine serum albumin (MTX-BSA) when the drug dose needed to reduce growth of cells to 50% of that of untreated cells (ID50) was compared in the sensitive L1210 leukemia and 3 L1210 sublines resistant to MTX by virtue of either deficient MTX transport or high levels of dihydrofolate dehydrogenase (DHFD). The loss of transport increased the ID50 for inhibition of growth rate by free MTX tenfold to twentyfold, whereas the elevation of DHFD levels increased the ID50 by tenfold. In contrast, deficiency of transport resulted in only a twofold increase in the ID50 for MTX-BSA, and elevation of DHFD caused a tenfold increase similar to that for free MTX. This difference was confirmed in studies of inhibition of DHFD activity by free and BSA-bound MTX. MTX-BSA but not MTX had antitumor activity against the transport-deficient L1210 line in (C57BL/6 x DBA/2)F1. These studies confirm a separate mode of cell entry for MTX-BSA and suggest a role for these complexes in overcoming resistance.