Pharmacokinetic interrelationships of irinotecan (CPT-11) and its three major plasma metabolites in patients enrolled in phase I/II trials

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Pharmacokinetic interrelationships of irinotecan (CPT-11) and its three major plasma metabolites in patients enrolled in phase I/II trials

LP Rivory, MC Haaz, P Canal, F Lokiec, JP Armand and J Robert
Department of Medicine, University of Queensland, Princess Alexandra Hospital, Woolloongabba, Queensland 4102, Australia. Lrivory@gpo.pa.up.edu.au

Irinotecan (CPT-11) is an analogue of 20(S)-camptothecin with promising activity against several tumor types. In patients, CPT-11 is metabolized to 7-ethyl-10-hydroxycamptothecin (SN-38) and to the beta-glucuronide of SN-38. Recently, we identified an additional metabolite of CPT-11, 7-ethyl-10-[4-N-(5-aminopentanoic acid)-1-piperidino] carbonyloxycamptothecin (APC; L. P. Rivory et al. , Cancer Res., 56: 3689-3694, 1996). The aim of this study was to investigate the interrelationships of all four compounds to identify factors that might be responsible for the large interpatient variability in CPT-11 and SN-38 kinetics. The plasma kinetics of CPT-11, SN-38, the beta-glucuronide of SN-38, and APC were studied in 19 patients for a total of 33 cycles (115-600 mg/m2). Although the area under the concentration curves (AUCs) of all compounds studied increased with dose, there was considerable variability. Ratios of the AUCs of the appropriate compounds were used as estimates of the major routes of metabolism (conversion of CPT-11 to SN-38, metabolism of CPT-11 to APC, and glucuronidation of SN-38). Each ratio varied more than 10-fold across the patient population, and the apparent extent of conversion of CPT-11 to SN-38 was highest at the 115 mg/m2 dose level. Interestingly, AUCSN-38 was greater in patients with both high AUCCPT-11 and AUCAPC. We conclude that the variability of the pharmacokinetics of CPT-11 and SN-38 is likely to be due to extensive interpatient differences in the pathways implicated in the metabolism of CPT-11.

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				L. J. Schaaf, L. A. Hammond, S. J. Tipping, R. M. Goldberg, R. Goel, J. G. Kuhn, L. L. Miller, L. D. Compton, L. A. Cisar, G. L. Elfring, et al. Phase 1 and pharmacokinetic study of intravenous irinotecan in refractory solid tumor patients with hepatic dysfunction. Clin. Cancer Res., June 15, 2006; 12(12): 3782 - 3791. [Abstract] [Full Text] [PDF]

				M. Harel, J. L. Hyatt, B. Brumshtein, C. L. Morton, K. J. P. Yoon, R. M. Wadkins, I. Silman, J. L. Sussman, and P. M. Potter The Crystal Structure of the Complex of the Anticancer Prodrug 7-Ethyl-10-[4-(1-piperidino)-1-piperidino]-carbonyloxycamptothecin (CPT-11) with Torpedo californica Acetylcholinesterase Provides a Molecular Explanation for Its Cholinergic Action Mol. Pharmacol., June 1, 2005; 67(6): 1874 - 1881. [Abstract] [Full Text] [PDF]

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				R. H. J. Mathijssen, R. J. van Alphen, J. Verweij, W. J. Loos, K. Nooter, G. Stoter, and A. Sparreboom Clinical Pharmacokinetics and Metabolism of Irinotecan (CPT-11) Clin. Cancer Res., August 1, 2001; 7(8): 2182 - 2194. [Abstract] [Full Text] [PDF]

				M. Wierdl, C. L. Morton, J. K. Weeks, M. K. Danks, L. C. Harris, and P. M. Potter Sensitization of Human Tumor Cells to CPT-11 via Adenoviral-mediated Delivery of a Rabbit Liver Carboxylesterase Cancer Res., July 1, 2001; 61(13): 5078 - 5082. [Abstract] [Full Text] [PDF]

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ARTICLES

Pharmacokinetic interrelationships of irinotecan (CPT-11) and its three major plasma metabolites in patients enrolled in phase I/II trials

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				C. L. Morton, M. Wierdl, L. Oliver, M. K. Ma, M. K. Danks, C. F. Stewart, J. L. Eiseman, and P. M. Potter Activation of CPT-11 in Mice: Identification and Analysis of a Highly Effective Plasma Esterase Cancer Res., August 1, 2000; 60(15): 4206 - 4210. [Abstract] [Full Text]

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				M. J. A. de Jonge, A. Sparreboom, A. S. T. Planting, M. E. L. van der Burg, M. M. de Boer-Dennert, J. t. Steeg, C. Jacques, and J. Verweij Phase I Study of 3-Week Schedule of Irinotecan Combined With Cisplatin in Patients With Advanced Solid Tumors J. Clin. Oncol., January 5, 2000; 18(1): 187 - 187. [Abstract] [Full Text] [PDF]

				M. J. A. de Jonge, J. Verweij, P. de Bruijn, E. Brouwer, R. H. J. Mathijssen, R. J. van Alphen, M. M. de Boer-Dennert, L. Vernillet, C. Jacques, and A. Sparreboom Pharmacokinetic, Metabolic, and Pharmacodynamic Profiles in a Dose-Escalating Study of Irinotecan and Cisplatin J. Clin. Oncol., January 5, 2000; 18(1): 195 - 195. [Abstract] [Full Text] [PDF]

				I. F. Pollack, M. Erff, D. Bom, T. G. Burke, J. T. Strode, and D. P. Curran Potent Topoisomerase I Inhibition by Novel Silatecans Eliminates Glioma Proliferation in Vitro and in Vivo Cancer Res., October 1, 1999; 59(19): 4898 - 4905. [Abstract] [Full Text] [PDF]

				R. F. DeVore, D. H. Johnson, J. Crawford, J. Garst, I. W. Dimery, J. Eckardt, S. G. Eckhardt, G. L. Elfring, L. J. Schaaf, C. K. Hanover, et al. Phase II Study of Irinotecan Plus Cisplatin in Patients With Advanced Non-Small-Cell Lung Cancer J. Clin. Oncol., September 1, 1999; 17(9): 2710 - 2710. [Abstract] [Full Text] [PDF]

				M. J. A. de Jonge, J. Verweij, A. S. T. Planting, M. E. L. v. d. Burg, G. Stoter, M. M. d. Boer-Dennert, P. d. Bruijn, E. Brouwer, L. Vernillet, and A. Sparreboom Drug-Administration Sequence Does Not Change Pharmacodynamics and Kinetics of Irinotecan and Cisplatin Clin. Cancer Res., August 1, 1999; 5(8): 2012 - 2017. [Abstract] [Full Text] [PDF]

				W. L. Furman, C. F. Stewart, C. A. Poquette, C. B. Pratt, V. M. Santana, W. C. Zamboni, L. C. Bowman, M. K. Ma, F. A. Hoffer, W. H. Meyer, et al. Direct Translation of a Protracted Irinotecan Schedule From a Xenograft Model to a Phase I Trial in Children J. Clin. Oncol., June 1, 1999; 17(6): 1815 - 1815. [Abstract] [Full Text] [PDF]