Literature DB >> 24350712

Human cytochrome P450 oxidation of 5-hydroxythalidomide and pomalidomide, an amino analogue of thalidomide.

Goutam Chowdhury1, Norio Shibata, Hiroshi Yamazaki, F Peter Guengerich.   

Abstract

The sedative and antiemetic drug thalidomide [α-(N-phthalimido)glutarimide] was withdrawn in the early 1960s because of its potent teratogenic effects but was approved for the treatment of lesions associated with leprosy in 1998 and multiple myeloma in 2006. The mechanism of teratogenicity of thalidomide still remains unclear, but it is well-established that metabolism of thalidomide is important for both teratogenicity and cancer treatment outcome. Thalidomide is oxidized by various cytochrome P450 (P450) enzymes, the major one being P450 2C19, to 5-hydroxy-, 5'-hydroxy-, and dihydroxythalidomide. We previously reported that P450 3A4 oxidizes thalidomide to the 5-hydroxy and dihydroxy metabolites, with the second oxidation step involving a reactive intermediate, possibly an arene oxide, that can be trapped by glutathione (GSH) to GSH adducts. We now show that the dihydroxythalidomide metabolite can be further oxidized to a quinone intermediate. Human P450s 2J2, 2C18, and 4A11 were also found to oxidize 5-hydroxythalidomide to dihydroxy products. Unlike P450s 2C19 and 3A4, neither P450 2J2, 2C18, nor 4A11 oxidized thalidomide itself. A recently approved amino analogue of thalidomide, pomalidomide (CC-4047, Actimid), was also oxidized by human liver microsomes and P450s 2C19, 3A4, and 2J2 to the corresponding phthalimide ring-hydroxylated product.

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Year:  2013        PMID: 24350712      PMCID: PMC3929586          DOI: 10.1021/tx4004215

Source DB:  PubMed          Journal:  Chem Res Toxicol        ISSN: 0893-228X            Impact factor:   3.739


  53 in total

1.  Thalidomide and congenital abnormalities.

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Journal:  Circulation       Date:  2004-12-20       Impact factor: 29.690

4.  Pharmacokinetics, metabolism and excretion of [(14)C]-lenalidomide following oral administration in healthy male subjects.

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5.  Cereblon expression is required for the antimyeloma activity of lenalidomide and pomalidomide.

Authors:  Yuan Xiao Zhu; Esteban Braggio; Chang-Xin Shi; Laura A Bruins; Jessica E Schmidt; Scott Van Wier; Xiu-Bao Chang; Chad C Bjorklund; Rafael Fonseca; P Leif Bergsagel; Robert Z Orlowski; A Keith Stewart
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6.  Inhibition of angiogenesis by thalidomide requires metabolic activation, which is species-dependent.

Authors:  K S Bauer; S C Dixon; W D Figg
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8.  Thalidomide metabolism by the CYP2C subfamily.

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1.  Metabolic profiles of pomalidomide in human plasma simulated with pharmacokinetic data in control and humanized-liver mice.

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2.  Induction of human cytochrome P450 3A enzymes in cultured placental cells by thalidomide and relevance to bioactivation and toxicity.

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Journal:  J Toxicol Sci       Date:  2017       Impact factor: 2.196

3.  Association of pharmacokinetic profiles of lenalidomide in human plasma simulated using pharmacokinetic data in humanized-liver mice with liver toxicity detected by human serum albumin RNA.

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4.  The Dihydroxy Metabolite of the Teratogen Thalidomide Causes Oxidative DNA Damage.

Authors:  Tasaduq H Wani; Anindita Chakrabarty; Norio Shibata; Hiroshi Yamazaki; F Peter Guengerich; Goutam Chowdhury
Journal:  Chem Res Toxicol       Date:  2017-08-02       Impact factor: 3.739

5.  Thalidomide increases human hepatic cytochrome P450 3A enzymes by direct activation of the pregnane X receptor.

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Review 7.  Combining Chimeric Mice with Humanized Liver, Mass Spectrometry, and Physiologically-Based Pharmacokinetic Modeling in Toxicology.

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8.  Development of a physiologically based pharmacokinetic model for intravenous lenalidomide in mice.

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9.  Simulation of Human Plasma Concentrations of Thalidomide and Primary 5-Hydroxylated Metabolites Explored with Pharmacokinetic Data in Humanized TK-NOG Mice.

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