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Research ArticleArticle

In Vitro Metabolism of Haloperidol and Sila-Haloperidol: New Metabolic Pathways Resulting from Carbon/Silicon Exchange

Tove Johansson, Lars Weidolf, Friedrich Popp, Reinhold Tacke and Ulrik Jurva
Drug Metabolism and Disposition January 2010, 38 (1) 73-83; DOI: https://doi.org/10.1124/dmd.109.028449
Tove Johansson
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Lars Weidolf
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Friedrich Popp
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Reinhold Tacke
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Ulrik Jurva
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Abstract

The neurotoxic side effects observed for the neuroleptic agent haloperidol have been associated with its pyridinium metabolite. In a previous study, a silicon analog of haloperidol (sila-haloperidol) was synthesized, which contains a silicon atom instead of the carbon atom in the 4-position of the piperidine ring. In the present study, the phase I metabolism of sila-haloperidol and haloperidol was studied in rat and human liver microsomes. The phase II metabolism was studied in rat, dog, and human hepatocytes and also in liver microsomes supplemented with UDP-glucuronic acid (UDPGA). A major metabolite of haloperidol, the pyridinium metabolite, was not formed in the microsomal incubations with sila-haloperidol. For sila-haloperidol, three metabolites originating from opening of the piperidine ring were observed, a mechanism that has not been observed for haloperidol. One of the significant phase II metabolites of haloperidol was the glucuronide of the hydroxy group bound to the piperidine ring. For sila-haloperidol, the analogous metabolite was not observed in the hepatocytes or in the liver microsomal incubations containing UDPGA. If silanol (SiOH) groups are not glucuronidated, introducing silanol groups in drug molecules could provide an opportunity to enhance the hydrophilicity without allowing for direct phase II metabolism. To provide further support for the observed differences in metabolic pathways between haloperidol and sila-haloperidol, the metabolism of another pair of C/Si analogs was studied, namely, trifluperidol and sila-trifluperidol. These studies showed the same differences in metabolic pathways as between sila-haloperidol and haloperidol.

Footnotes

  • Article, publication date, and citation information can be found at http://dmd.aspetjournals.org.

    doi:10.1124/dmd.109.028449

  • ↵Embedded Image The online version of this article (available at http://dmd.aspetjournals.org) contains supplemental material.

  • HLM
    human liver microsome
    UDPGA
    UDP-glucuronic acid
    LC
    liquid chromatography
    UPLC
    ultraperformance liquid chromatography
    MS
    mass spectrometry
    m/z
    mass-to-charge ratio
    RLM
    rat liver microsome.

    • Received May 8, 2009.
    • Accepted October 5, 2009.
  • Copyright © 2010 by The American Society for Pharmacology and Experimental Therapeutics
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Drug Metabolism and Disposition: 38 (1)
Drug Metabolism and Disposition
Vol. 38, Issue 1
1 Jan 2010
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Research ArticleArticle

In Vitro Metabolism of Haloperidol and Sila-Haloperidol: New Metabolic Pathways Resulting from Carbon/Silicon Exchange

Tove Johansson, Lars Weidolf, Friedrich Popp, Reinhold Tacke and Ulrik Jurva
Drug Metabolism and Disposition January 1, 2010, 38 (1) 73-83; DOI: https://doi.org/10.1124/dmd.109.028449

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Research ArticleArticle

In Vitro Metabolism of Haloperidol and Sila-Haloperidol: New Metabolic Pathways Resulting from Carbon/Silicon Exchange

Tove Johansson, Lars Weidolf, Friedrich Popp, Reinhold Tacke and Ulrik Jurva
Drug Metabolism and Disposition January 1, 2010, 38 (1) 73-83; DOI: https://doi.org/10.1124/dmd.109.028449
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