PT - JOURNAL ARTICLE AU - Yan Zhou AU - Geetha Achanta AU - Helene Pelicano AU - Varsha Gandhi AU - William Plunkett AU - Peng Huang TI - Action of (<em>E</em>)-2′-Deoxy-2′-(fluoromethylene)cytidine on DNA Metabolism: Incorporation, Excision, and Cellular Response AID - 10.1124/mol.61.1.222 DP - 2002 Jan 01 TA - Molecular Pharmacology PG - 222--229 VI - 61 IP - 1 4099 - http://molpharm.aspetjournals.org/content/61/1/222.short 4100 - http://molpharm.aspetjournals.org/content/61/1/222.full SO - Mol Pharmacol2002 Jan 01; 61 AB - (E)-2′-deoxy-2′-(fluoromethylene)cytidine (FMdC) is a new analog of deoxycytidine with promising anticancer activity. We investigated the action of FMdC on DNA metabolism by evaluating its incorporation into DNA, its excision from DNA in vitro, and the role of the incorporation of FMdC into DNA in causing cytotoxicity. In vitro DNA primer extension demonstrated that FMdC nucleotides were incorporated with relatively high substrate efficiency into the C sites of the elongating DNA strand. Once incorporated, FMdC became a poor substrate for further chain elongation by DNA polymerases, resulting in a termination of DNA synthesis at the sites of incorporation. Furthermore, the 3′ → 5′ exonuclease activity of DNA polymerase ε or wild-type p53 protein was ineffective in removing the incorporated FMdC from DNA in vitro. FMdC also showed potent cytotoxic activity against human leukemia and solid tumor cells. Incubation with a low concentration of FMdC (10 nM) induced cell cycle arrest at S or G1 phases, but the cells eventually died as the time of incubation increased. Compared with HL-60 cells, human myeloid ML-1 cells with wild-type p53 were more sensitive to FMdC, but the S or G1 phase arrest did not seem to depend on the presence or absence of p53. Inhibiting the incorporation of FMdC into cellular DNA by aphidicolin suppressed the cytotoxic effect of the compound. We conclude that the incorporated FMdC nucleotide profoundly disrupts DNA synthesis and resists excision by exonucleases, and that incorporation of this analog into DNA is a key molecular event responsible for the drug's cytotoxicity.