Evaluation of 9-dimethylaminomethyl-10-hydroxycamptothecin against xenografts derived from adult and childhood solid tumors

Abstract

The topoisomerase I inhibitor 9-dimethylaminomethyl-10-hydroxycamptothecin (topotecan) was evaluated against a panel of xenografts comprising four lines of adult colon adenocarcinoma, three colon tumors derived from adolescents, six childhood rhabdomyosarcomas from previously untreated patients as well as sublines selected in vivo for resistance to vincristine and melphalan, and three lines of childhood osteogenic sarcoma. Efficacy was determined at maximal tolerated dose levels using intermittent i.p. administration [every 4 days for 4 doses (q4d×4)] or daily p.o. or i. p. administration 5 days per week for up to 20 courses. On a q4d×4 schedule, the maximum tolerated dose (MTD) was 12.5 mg/kg per administration, which caused marked weight loss and lethality in ≈5% of the tumor-bearing mice. This schedule caused significant growth inhibition (but no tumor regression) in advanced adult colon adenocarcinomas. The minimal treated/control (T/C) ratios were 0.49, 0.54, and 0.3 for three of the tumor lines and were achieved at 18–21 days after the initiation of treatment. In contrast, rhabdomyosarcomas were considerably more sensitive, with T/C ratios being 5 colon adenocarcinoma, both of which demonstrated intermediate sensitivity to topotecan, and in osteosarcoma OS33, protracted p.o. administration for 13–20 weeks (1.0–1.5 mg/kg per dose given daily x 5 days) caused complete regression without regrowth in Rh12 and OS33 tumors and partial regression of all VRC₅ tumors. No toxicity was observed using this schedule of administration. Topotecan demonstrated significant activity against all three osteosarcoma xenografts examined, with optimal schedules causing complete regression in two lines. Topotecan demonstrated similar activity against KB 3-1 and KB 8-5 multidrug-resistant cells in culture, and the Rh 12/VCR an Rh 18/VCR xenografts selected for vincristine (VCR) resistance in vivo were as sensitive as their parental lines. However, Rh 28/L-PAM, selected for resistance to melphalan, was cross-resistant to topotecan. Plasma pharmacokinetics studies were carried out at the respective MTD for oral (2 mg/kg) or i.p. (1.75 mg/kg) administration. During oral administration the maximal plasma concentration (of the active lactone) was achieved at 0.25 h (C_max 41.7 ng/ml) and thet ₁/2α andt ₁/2β values were 0.55 and 2.8 h, respectively. Administration i.p. resulted in peak plasma levels of 523 ng/ml, witht ₁/2α andt ₁/2β elimination rates being 0.29 and 2.5 h, respectively. Although i.p. administration resulted in a 3-fold increase in AUC as compared with oral dosing, similar antitumor activity was observed against most xenograft lines. These results suggest that topotecan may have significant activity against several human cancers and that its efficacy may be schedule-dependent. Topotecan may have a particular role to play in the treatment of childhood solid tumors such as rhabdomyosarcoma and osteosarcoma.