Cytarabine (ara-C), a major antileukemic agent, is phosphorylated in the cell to cytarabine triphosphate (ara-CTP), which is then partly incorporated into DNA. The drug incorporation into DNA poisons the extending primer against further incorporation of deoxyribonucleotides including dCTP, ultimately inhibiting DNA synthesis. While intracellular ara-CTP concentration has been found to predict clinical outcome, cytotoxicity in vitro is determined primarily by the extent of drug incorporation into DNA. However, clinically appropriate quantitation methods for ara-C at the DNA level have not been available. We developed a sensitive new method for monitoring ara-C incorporated into DNA in vivo. After DNA from leukemic cells was fractionated using the Schmidt-Thannhauser-Schneider method, it was degraded to constituent nucleosides to release ara-C, which was isolated from the nucleosides using HPLC and then measured by radioimmunoassay. Recovery for DNA fractionation, ara-C release by degradation, and ara-C isolation were 92.0+/-6.4%, 90.7+/-9.4%, and 98.5+/-1.4%, respectively. The method was found to determine ara-C incorporation into DNA of ara-C-treated HL 60 cells in vitro with minimal interassay variation. The values determined were compatible with those determined by scintillation counting in parallel experiments using tritiated ara-C. Our method could be used to monitor DNA-incorporated ara-C concentrations during ara-C therapy, together with plasma ara-C and intracellular ara-CTP concentrations. ara-C incorporation into DNA appeared to be associated with intracellular retention of ara-CTP or persistence of plasma ara-C. Thus, the present method is sensitive, accurate, precise, and may permit therapeutic drug monitoring at the DNA level for better individualization of antileukemic regimens.