CYP-dependent Metabolism of Antitumor Pyrazolo[3,4-d]pyrimidine Derivatives Is Characterized by an Oxidative Dechlorination Reaction

Claudio ZAMPERINI; Elena DREASSI; Giulia VIGNAROLI; Marco RADI; Stefania DRAGONI; Silvia SCHENONE; Francesca MUSUMECI; Massimo VALOTI; Riccarda ANTIOCHIA; Maurizio BOTTA

doi:10.2133/dmpk.DMPK-13-RG-094

Regular Articles

CYP-dependent Metabolism of Antitumor Pyrazolo[3,4-d]pyrimidine Derivatives Is Characterized by an Oxidative Dechlorination Reaction

Claudio ZAMPERINI, Elena DREASSI , Giulia VIGNAROLI, Marco RADI, Stefania DRAGONI, Silvia SCHENONE, Francesca MUSUMECI, Massimo VALOTI, Riccarda ANTIOCHIA, Maurizio BOTTA

Author information

Claudio ZAMPERINI
Dipartimento di Biotecnologie, Chimica e Farmacia, Università di Siena
Elena DREASSI Corresponding author
Dipartimento di Biotecnologie, Chimica e Farmacia, Università di Siena
Giulia VIGNAROLI
Dipartimento di Biotecnologie, Chimica e Farmacia, Università di Siena
Marco RADI
Dipartimento Farmaceutico, Università di Parma, Viale delle Scienze
Stefania DRAGONI
Dipartimento di Scienze della Vita, Università di Siena
Silvia SCHENONE
Dipartimento di Farmacia, Università di Genova
Francesca MUSUMECI
Dipartimento di Farmacia, Università di Genova
Massimo VALOTI
Dipartimento di Scienze della Vita, Università di Siena
Riccarda ANTIOCHIA
Dipartimento di Chimica e Tecnologie del Farmaco, Università La Sapienza
Maurizio BOTTA
Dipartimento di Biotecnologie, Chimica e Farmacia, Università di Siena
Sbarro Institute for Cancer Research and Molecular Medicine, Center for Biotechnology, College of Science and Technology, Temple University

Keywords: anticancer agents, cytochrome P450, CYP3A4, liver microsomes, metabolite kinetics, metabolite identification

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Supplementary material

2014 Volume 29 Issue 6 Pages 433-440

DOI https://doi.org/10.2133/dmpk.DMPK-13-RG-094

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Abstract

The aim of this study is to investigate the metabolic (cytochrome P450-dependent) behaviour of pyrazolo[3,4-d]pyrimidines 1–10 dual Abl/Src kinase inhibitors. All the compounds demonstrate good metabolic stability both in human liver (HLM) and in rat liver (RLM) microsomes. Moreover, all the tested molecules undergo the same metabolic CYP-dependent reactions, namely oxidative dechlorination and N-dealkylation. These metabolic pathways are fully characterized for compound 1. In HLM, the dehalogenated metabolite accounts for about 87% of the full 1 metabolism, while the N-dealkylated metabolite accounts for 12%. Inhibition studies performed using different CYP-inhibitors indicate that the 3A family is the isoenzyme family most involved in pyrazolo[3,4-d]pyrimidine metabolism. This observation is confirmed by studies performed by using CYP3A selective substrates. Furthermore kinetic analysis performed in RLM, HLM and cDNA CYP3A4 shows that the affinity of CYPs towards compound 1 is similar in all the tested preparations (K_m = 32.7, 21.8, and 48.7 µM, respectively).

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