Survival and cell cycle kinetics responses of Chinese hamster ovary cells, and clones of human adenocarcinoma of the stomach and astrocytoma to diaziquone (AZQ) in vitro

Abstract

The anticancer agent 1,4-cyclohexadiene-1,4-dicarbonic acid, 2,5-bis(aziridinyl)-3,6-dioxo-, diethyl ester (AZQ) (NSC 182986) was studied in vitro to determine survival, cell cycle stage sensitivity, and cell cycle kinetics effects. One hour treatments with AZQ doses ranging from 1 μg/ml to 25 μg/ml revealed that human stomach tumor clones were most sensitive of three cell types studied to the killing effects of AZQ; this sensitivity was followed in order by human astrocytomas and Chinese hamster ovary (CHO) cells. Depending on the AZQ dose, nondividing CHO cells were 10 to 180 times more sensitive than dividing CHO cells. Synchronized CHO cells were most sensitive to AZQ's killing effects when treated at the late S/G₂ phase boundary, with the overall order of sensitivity being late S/G₂, G₂, mid-S, and G₁ phase. Mitotic cells were neither killed by doses used in these studies, nor were they inhibited in their progression from mitosis into the G₁ phase. Synchronized CHO cells treated in all other phases of the cell cycle were either blocked completely or delayed for up to 2 hours in their progression through the cell cycle. Flow microfluorometry (FMF) studies on exponentially growing CHO cells demonstrated that even at noncytotoxic doses (1 μg/ml), AZQ caused very large, but reversible enrichments of cells in the S and G₂ phases of the cell cycle. Since AZQ has already been shown to be effective against a variety of animal and human tumors (especially brain tumors) the data reported here may be useful in designing more effective treatment schedules and drug combination regimens.