ENHANCEMENT OF THE DNA CROSS-LINKING ACTIVITY OF NITROGEN-MUSTARD BY MISONIDAZOLE AND DIETHYL MALEATE IN A MOUSE FIBRO-SARCOMA TUMOR INVIVO

Abstract

The technique of alkaline elution was used to determine the amount of nitrogen mustard (HN2)-induced DNA cross-linking in a murine [FS a] fibrosarcoma tumor in vivo. Mice were either treated with HN2 directly or were pretreated with misonidazole (MISO) or diethyl maleate prior to injection with HN2. Two types of HN2-induced DNA lesions were detected, namely, proteinase K-sensitive and -resistant cross-links. Pretreatment with MISO did not appear to affect the ratio of the 2 types of lesions. In mice treated with HN2 alone, the amount of cross-linking reached a high level by 0.5 h postinjection, after which these lesions were repaired; 62% of cross-links were removed between 0.5-6 h postinjection. Pretreatment of mice with MISO resulted in substantial alterations in both the magnitude and time course of cross-linking during the 1st few hours after injection of HN2. Both MISO and diethyl maleate enhanced the number of cross-links formed at 0.5 h postinjection. In MISO-pretreated mice, only 18% of the cross-links present at 0.5 h were removed by 6 h postinjection. This early enhancement is possibly related to glutathione depletion resulting in reduced intracellular inactivation of HN2. Since repair processes were determined not to be saturated at the level of lesions under study, these data suggest that, in addition to the initial glutathione depletion resulting in an increased burden of damage, MISO may also inhibit DNA repair processes, possibly via a hypoxia-dependent interaction between MISO reduction products and DNA or repair enzymes. Assuming that DNA cross-linking is related to the cytotoxicity of HN2, these effects may account for the MISO enhancement of HN2 toxicity toward various biological systems. Chemosensitization may result from a variety of factors, with the relative importance of each factor depending on the particular drug being used.