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Use of Camptothecin-resistant Mammalian Cell Lines to Evaluate the Role of Topoisomerase I in the Antiproliferative Activity of the Indolocarbazole, NB-506, and Its Topoisomerase I Binding Site

Laboratory of Molecular Pharmacology, Division of Basic Sciences, National Cancer Institute, National Institutes of Health, Bethesda, Maryland 20892-4255

NB-506 is a topoisomerase I (top1) inhibitor in clinical trials. In this study, we used a series of camptothecin (CPT)-resistant cell lines with known top1 alterations. We show that three mutations in different domains of the top1 enzyme that confer CPT resistance also confer cross-resistance to NB-506. The CPT-resistant cell lines and corresponding mutations were: human prostate carcinoma cells DU-145/RC1 (mutation R364H), Chinese hamster fibroblasts DC3F/C10 (mutation G503S), and human leukemia CEM/C2 cells (N722S). This result suggests that NB-506 and CPT share a common binding site in the top1-DNA complex. We next used these three cell lines and their parental cells to study the relationship between top1 poisoning by NB-506 and antiproliferative activity. We found that the CPT-resistant cells were only 2–10-fold resistant to NB-506, which suggests that NB-506 targets other cellular processes/pathways besides top1. This conclusion was further supported by the limited cross-resistance of top1-deficient murine leukemia P388/CPT45 cells (2-fold). Cross-resistance was also limited for J-109,382, an isomer of NB-506 that does not intercalate into DNA, indicating that the non-top1-mediated antiproliferative activity of NB-506 is not attributable to DNA intercalation. Together, these data indicate that NB-506 and indolocarbazoles are promising agents to overcome CPT resistance.

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