Abstract
Recent evidence indicates that 5-fluorouracil (5-FlUra) is incorporated into DNA and is removed by the DNA repair enzyme uracil DNA glycosylase. Synthetic oligonucleotides containing either a single uracil or 5-FlUra residue were constructed to examine the mechanisms by which human cells remove 5-FlUra from DNA. The human uracil DNA glycosylase excised uracil in a manner similar to that observed for the bacterial enzyme. In contrast, a significant difference was observed in their abilities to remove 5-FlUra. In particular, both the bacterial and normal human enzymes displayed 13-17-fold increases in their apparent Km values but the apparent Vmax values remained virtually constant. These results demonstrate that normal human cells possess a defined capacity to remove 5-FlUra incorporated into DNA. However, specific kinetic differences may exist that affect their capacity to remove 5-FlUra formed in DNA after treatment with this cancer chemotherapeutic agent.