Abstract
The efficacy of intraperitoneal chemotherapy for ovarian cancers is limited by poor penetration of drug into peritoneal tumors. Based on pharmacokinetic theory that suggests that penetration depth is primarily determined by the rate of drug removal via tumor capillaries, we have hypothesized that co-administration of antiangiogenic therapy will allow for decreased drug removal, increased drug concentrations in tumor, and increased efficacy of intraperitoneal chemotherapy. Pharmacokinetic modeling was conducted to simulate the effect of tumor blood flow on tumor concentrations of topotecan. Simulations predicted that tumor blood flow reductions, as potentially achieved by antiangiogenic therapy, would lead to substantial increases in tumor concentrations after intraperitoneal chemotherapy but would lead to a slight decrease after systemic chemotherapy. Pharmacokinetic studies performed using the A2780 xenograft tumor model showed that animals receiving combined intraperitoneal topotecan and an anti-vascular endothelial growth factor (VEGF) monoclonal antibody had ∼6.5-fold higher (p = 0.0015) tumor topotecan concentrations compared with animals receiving intraperitoneal topotecan alone, whereas there was no significant (p = 0.16) difference for systemic topotecan. Therapeutic studies conducted with two different drugs, topotecan and cisplatin, showed that animals receiving combined intraperitoneal chemotherapy and anti-VEGF therapy displayed superior survival relative to animals treated with chemotherapy alone (i.e., cisplatin or topotecan), anti-VEGF alone, or intravenous chemotherapy with concomitant anti-VEGF therapy. Combined intraperitoneal topotecan and anti-VEGF resulted in the complete cure of four of 11 mice. The proposed combination of antiangiogenic therapy and intraperitoneal chemotherapy, which was predicted to be beneficial by pharmacokinetic simulations, may provide substantial benefit to patients with peritoneal malignancies.
Footnotes
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This work was supported by the National Institutes of Health National Cancer Institute [Grant CA118213]; the Center for Protein Therapeutics at the University at Buffalo; and a fellowship from the University at Buffalo/Pfizer Strategic Alliance.
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The data presented here have appeared in poster form as follows: Shah DK, Shin BS, Veith J, Tóth K, Bernacki RJ, and Balthasar JP (2008) Use of an anti-vascular endothelial growth factor antibody in a pharmacokinetic strategy to increase the efficacy of intraperitoneal chemotherapy, in 2008 AAPS Annual Meeting; 2008 Nov 17-19; Atlanta, GA. American Association of Pharmaceutical Scientists, Arlington, VA.
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J.P.B. has served as a consultant to Genentech (on issues unrelated to the present work). In addition, J.P.B. serves as the Director of the University at Buffalo Center for Protein Therapeutics, which is supported by an industry consortium. Genentech has provided funding to the Center to support work that is unrelated to this manuscript.
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doi:10.1124/jpet.108.149443.
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ABBREVIATIONS: VEGF, vascular endothelial growth factor; PBPK, physiologically based pharmacokinetic; HPLC, high-performance liquid chromatography; PBS/T, 0.05% Tween 20 in phosphate-buffered saline; HPF, high-power microscopic field; CI, confidence interval; Kin, steady-state rate of drug entry into the tumor; CL, clearance; Q, tumor blood flow.
- Received December 4, 2008.
- Accepted February 19, 2009.
- The American Society for Pharmacology and Experimental Therapeutics
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