Abstract
Studies were undertaken to determine the identity of an azaserine:DNA adduct. The most probable adduct, 7-carboxymethylguanine, was synthesized. DNA isolated from pancreatic acinar cells treated in culture with [14C]azaserine was hydrolyzed under neutral conditions to liberate N-alkylated purines. The neutral hydrolysate was subjected to high-performance liquid chromatography along with the synthetic standard. One of the radioactive peaks from the treated DNA was found to cochromatograph with 7-carboxymethylguanine in three systems: reverse phase; anion exchange; and ion pair reverse phase. These results suggest that azaserine metabolism in acinar cells results in carboxymethylation of DNA, supporting previously proposed models of azaserine degradation.
This work was supported by NIH Grant CA 17843.