COMBINED CYTO-TOXIC EFFECT OF LOW-DOSE 5-FLUOROURACIL AND HYDROXYUREA ON 9L CELLS-INVITRO

Abstract

Continuous exposure of exponentially growing 9L rat brain tumor cells for 24 h to a nontoxic dose (0.77 .mu.M) of 5-fluorouracil (5-FUra) produced a progressive increase in S-phase cells from 35% (asynchronous culture) to 70% as shown by DNA histograms based on data obtained by flow cytometry. When 9L cells were treated with the S-phase-specific agent hydroxyurea (1.3 mM) immediately after treatment with 5-FUra, a synergistic cell kill resulted. A centrifugal elutriation study confirmed that enhanced cell kill was caused in part by the S-phase synchrony produced by 5-FUra and to the S-phase specificity of hydroxyurea. A higher dose (7.7 mM) of 5-FUra caused a partial G1-S block; subsequent treatment with hydroxyurea also enhanced cell kill, but the enhancement was not related to S-phase synchrony. A centrifugal elutriation study suggested that after 24 h treatment with 5-FUra hydroxyurea might kill both cells in S phase, which has the greater number of clonogenic cells, and kill cells that are in other phases of the cell cycle, including cells blocked at the G1-S border that are vulnerable to the phenomenon of thymidineless death; concomitant administration of thymidine along with 5-FUra eliminated enhanced cell kill.