MECHANISMS OF ACQUIRED-RESISTANCE TO THE QUINAZOLINE THYMIDYLATE SYNTHASE INHIBITOR ZD1694 (TOMUDEX) IN ONE MOUSE AND 3 HUMAN CELL-LINES

Four cell lines, the mouse L1210 leukaemia, the human W1L2 lymphoblastoid and two human ovarian (CH1 and 41M) cell lines, were made resistant to ZD1694 (Tomudex) by continual exposure to incremental doses of the drug. A 500-fold increase in thymidylate synthase (TS) activity is the primary mechanism of resistance to ZD1694 in the W1L2:R(D1694) cell line, which is consequently highly cross-resistant to other folate-based TS inhibitors, including BW1843U89, LY231514 and AG337, but sensitive to antifolates with other enzyme targets. The CH1:R(D1694) cell line is (14)-fold resistant to ZD1694, largely accounted for by the 4.2-fold increase in TS activity. Cross-resistance was observed to other TS inhibitors, including 5-fluorodeoxyuridine (FdUrd). 41M:R(D1694) cells, when exposed to 0.1 mu M [H-3]ZD1694, accumulated similar to 20-fold less H-3-labelled material over 24 h than the parental line. Data are consistent with this being the result of impaired transport of the drug via the reduced folate/methotrexate carrier. Resistance was therefore observed to methotrexate but not to CB3717, a compound known to use this transport mechanism poorly. The mouse L1210:R(D1694) cell line does not accumulate ZD1694 or Methotrexate (MTX) polyglutamates. Folylpolyglutamate synthetase substrate activity (using ZD1694 as the substrate) was decreased to similar to 13% of that observed in the parental line. Cross-resistance was found to those compounds known to be active through polyglutamation.