New highly lipophilic camptothecin BNP1350 is an effective drug in experimental human cancer

Abstract

BNP1350, 7‐[(2‐trimethylsilyl)ethyl]‐20(S)‐camptothecin, is a novel semi‐synthetic, highly lipophilic, silicon‐containing camptothecin and an inhibitor of topoisomerase I. It has been supercomputer engineered for superior oral bioavailability, superior lactone stability, broad anti‐tumor activity, increased potency and insensitivity to Pgp/MRP/LRP drug resistance. We determined the efficacy of BNP1350 in experimental human colon cancer and compared its anti‐tumor effects with those of CPT‐11/SN‐38. We also determined a possible influence of Pgp, MRP and LRP on the efficacy of BNP1350. The in vitro anti‐proliferative capacity of the compounds using various exposure times was assessed in five colon cancer cell lines and indicated that BNP1350 was similarly effective or slightly more potent than SN‐38. Four cell lines of other origin with sublines expressing Pgp, MRP and/or LRP showed that BNP1350 was significantly more effective than SN‐38 (p < 0.05) and that the activity of BNP1350 was not reduced in multidrug‐resistant cells. For in vivo experiments, BNP1350 was given 1.0 mg/kg i.p. or 1.5 mg/kg p.o. daily × 5 and CPT‐11 20 mg/kg i.p. daily × 5 being equitoxic schedules in nude mice bearing s.c. human tumor xenografts. The schedules were studied in colon cancer xenografts COLO320, COLO205 or WiDr as well as in two Pgp‐positive xenografts 2780AD and BRO/mdr1.1 and the parental Pgp‐negative A2780 ovarian cancer xenografts and BRO melanoma xenografts. Growth inhibition of >50% was obtained for BNP1350 given i.p. in six out of the seven xenografts studied. BNP1350 was similarly effective when given i.p. or p.o. CPT‐11 was as effective as BNP1350, except in BRO and BRO/mdr1.1 xenografts. Pgp expression in xenografts in vivo confirmed that there was no negative influence on the efficacy of BNP1350. In conclusion, BNP1350 shows a broad spectrum of activity in experimental human tumors and is a suitable candidate for oral treatment of cancer. Int. J. Cancer 88:260–266, 2000.