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Research ArticleABSORPTION, DISTRIBUTION, METABOLISM, AND EXCRETION

Metabolism of Thalidomide in Liver Microsomes of Mice, Rabbits, and Humans

Jun Lu, Nuala Helsby, Brian D. Palmer, Malcolm Tingle, Bruce C. Baguley, Philip Kestell and Lai-Ming Ching
Journal of Pharmacology and Experimental Therapeutics August 2004, 310 (2) 571-577; DOI: https://doi.org/10.1124/jpet.104.067793
Jun Lu
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Nuala Helsby
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Brian D. Palmer
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Malcolm Tingle
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Bruce C. Baguley
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Philip Kestell
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Lai-Ming Ching
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Abstract

Thalidomide is increasingly important in clinical treatment, not only of various inflammatory conditions but also in multiple myeloma and other malignancies. Moreover, the metabolism of thalidomide varies considerably among different species, indicating a need to understand its mechanistic basis. Our previous in vivo studies showed the plasma half-life of thalidomide to be much shorter in mice than in humans, with rabbits showing intermediate values. We were unable to detect hydroxylated thalidomide metabolites in humans and suggested that interspecies differences in thalidomide hydroxylation might account for the differences in plasma half-life. We sought here to establish whether these species differences in the formation of hydroxylated thalidomide metabolites could be discerned from in vitro studies. Liver microsomes of mice, rabbit, and human donors were incubated with thalidomide and analyzed using liquid chromatography-mass spectrometry. Hydrolysis products were detected for all three species, and the rates of formation were similar to those for spontaneous hydrolysis, except in rabbits where phthaloylisoglutamine formation increased linearly with microsomal enzyme concentration. Multiple hydroxylation products were detected, including three dihydroxylated metabolites not observed in vivo. Thalidomide-5-O-glucuronide, detected in vivo, was absent in vitro. The amount of 5-hydroxythalidomide formed was high in mice, lower in rabbits, and barely detectable in humans. We conclude that major interspecies differences in hepatic metabolism of thalidomide relate closely to the rate of in vivo metabolite formation. The very low rate of in vitro and in vivo hydroxylation in humans strongly suggests that thalidomide hydroxylation is not a requirement for clinical anticancer activity.

Footnotes

  • DOI: 10.1124/jpet.104.067793.

  • ABBREVIATIONS: Thal, thalidomide; 5-OH Thal, 5-hydroxythalidomide; 5′-OH Thal, 5′-hydroxythalidomide; HPLC, high-performance liquid chromatography; LC-MS, liquid chromatography-mass spectrometry; P450, cytochrome P450; ACN, acetonitrile.

    • Received March 2, 2004.
    • Accepted April 5, 2004.
  • The American Society for Pharmacology and Experimental Therapeutics
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Journal of Pharmacology and Experimental Therapeutics: 310 (2)
Journal of Pharmacology and Experimental Therapeutics
Vol. 310, Issue 2
1 Aug 2004
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Research ArticleABSORPTION, DISTRIBUTION, METABOLISM, AND EXCRETION

Metabolism of Thalidomide in Liver Microsomes of Mice, Rabbits, and Humans

Jun Lu, Nuala Helsby, Brian D. Palmer, Malcolm Tingle, Bruce C. Baguley, Philip Kestell and Lai-Ming Ching
Journal of Pharmacology and Experimental Therapeutics August 1, 2004, 310 (2) 571-577; DOI: https://doi.org/10.1124/jpet.104.067793

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Research ArticleABSORPTION, DISTRIBUTION, METABOLISM, AND EXCRETION

Metabolism of Thalidomide in Liver Microsomes of Mice, Rabbits, and Humans

Jun Lu, Nuala Helsby, Brian D. Palmer, Malcolm Tingle, Bruce C. Baguley, Philip Kestell and Lai-Ming Ching
Journal of Pharmacology and Experimental Therapeutics August 1, 2004, 310 (2) 571-577; DOI: https://doi.org/10.1124/jpet.104.067793
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