Why do most human liver cytosol preparations lack xanthine oxidase activity?

When investigating the potential for xanthine oxidase (XO)-mediated metabolism of a new chemical entity in vitro, selective chemical inhibition experiments are typically used. Most commonly, these inhibition experiments are performed using the inhibitor allopurinol (AP) and commercially prepared hum...

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Published in	Drug metabolism and disposition Vol. 42; no. 4; pp. 695 - 699
Main Authors	Barr, John T, Choughule, Kanika V, Nepal, Sahadev, Wong, Timothy, Chaudhry, Amarjit S, Joswig-Jones, Carolyn A, Zientek, Michael, Strom, Stephen C, Schuetz, Erin G, Thummel, Kenneth E, Jones, Jeffrey P
Format	Journal Article
Language	English
Published	United States The American Society for Pharmacology and Experimental Therapeutics 01.04.2014
Subjects	Accelerated Communication Aldehyde Oxidase - metabolism Allopurinol - analysis Allopurinol - metabolism Allopurinol - pharmacology Chromatography, High Pressure Liquid Cytosol - drug effects Cytosol - enzymology Enzyme Inhibitors - analysis Enzyme Inhibitors - metabolism Enzyme Inhibitors - pharmacology Female Humans Limit of Detection Liver - drug effects Liver - enzymology Male Medicin och hälsovetenskap Oxypurinol - analysis Oxypurinol - metabolism Oxypurinol - pharmacology Perfusion Tandem Mass Spectrometry Tissue Culture Techniques - methods Xanthine Oxidase - antagonists & inhibitors Xanthine Oxidase - metabolism
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Abstract	When investigating the potential for xanthine oxidase (XO)-mediated metabolism of a new chemical entity in vitro, selective chemical inhibition experiments are typically used. Most commonly, these inhibition experiments are performed using the inhibitor allopurinol (AP) and commercially prepared human liver cytosol (HLC) as the enzyme source. For reasons detailed herein, it is also a common practice to perfuse livers with solutions containing AP prior to liver harvest. The exposure to AP in HLC preparations could obviously pose a problem for measuring in vitro XO activity. To investigate this potential problem, an HPLC-MS/MS assay was developed to determine whether AP and its primary metabolite, oxypurinol, are retained within the cytosol for livers that were treated with AP during liver harvest. Differences in enzymatic activity for XO and aldehyde oxidase (AO) in human cytosol that can be ascribed to AP exposure were also evaluated. The results confirmed the presence of residual AP (some) and oxypurinol (all) human liver cytosol preparations that had been perfused with an AP-containing solution. In every case where oxypurinol was detected, XO activity was not observed. In contrast, the presence of AP and oxypurinol did not appear to have an impact on AO activity. Pooled HLC that was purchased from a commercial source also contained residual oxypurinol and did not show any XO activity. In the future, it is recommended that each HLC batch is screened for oxypurinol and/or XO activity prior to testing for XO-mediated metabolism of a new chemical entity.
AbstractList	When investigating the potential for xanthine oxidase (XO)-mediated metabolism of a new chemical entity in vitro, selective chemical inhibition experiments are typically used. Most commonly, these inhibition experiments are performed using the inhibitor allopurinol (AP) and commercially prepared human liver cytosol (HLC) as the enzyme source. For reasons detailed herein, it is also a common practice to perfuse livers with solutions containing AP prior to liver harvest. The exposure to AP in HLC preparations could obviously pose a problem for measuring in vitro XO activity. To investigate this potential problem, an HPLC-MS/MS assay was developed to determine whether AP and its primary metabolite, oxypurinol, are retained within the cytosol for livers that were treated with AP during liver harvest. Differences in enzymatic activity for XO and aldehyde oxidase (AO) in human cytosol that can be ascribed to AP exposure were also evaluated. The results confirmed the presence of residual AP (some) and oxypurinol (all) human liver cytosol preparations that had been perfused with an AP-containing solution. In every case where oxypurinol was detected, XO activity was not observed. In contrast, the presence of AP and oxypurinol did not appear to have an impact on AO activity. Pooled HLC that was purchased from a commercial source also contained residual oxypurinol and did not show any XO activity. In the future, it is recommended that each HLC batch is screened for oxypurinol and/or XO activity prior to testing for XO-mediated metabolism of a new chemical entity.
Author	Barr, John T Jones, Jeffrey P Strom, Stephen C Chaudhry, Amarjit S Schuetz, Erin G Zientek, Michael Thummel, Kenneth E Joswig-Jones, Carolyn A Nepal, Sahadev Wong, Timothy Choughule, Kanika V
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SubjectTerms	Accelerated Communication Aldehyde Oxidase - metabolism Allopurinol - analysis Allopurinol - metabolism Allopurinol - pharmacology Chromatography, High Pressure Liquid Cytosol - drug effects Cytosol - enzymology Enzyme Inhibitors - analysis Enzyme Inhibitors - metabolism Enzyme Inhibitors - pharmacology Female Humans Limit of Detection Liver - drug effects Liver - enzymology Male Medicin och hälsovetenskap Oxypurinol - analysis Oxypurinol - metabolism Oxypurinol - pharmacology Perfusion Tandem Mass Spectrometry Tissue Culture Techniques - methods Xanthine Oxidase - antagonists & inhibitors Xanthine Oxidase - metabolism
Title	Why do most human liver cytosol preparations lack xanthine oxidase activity?
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