Abstract

Introduction123I-N-isopropyl-p-iodoamphetamine (123I-IMP) is metabolized and converted to 123I-p-iodoamphetamine (123I-PIA) by CYP2C19 in humans. Since variations in 123I-PIA levels reflect variations in CYP2C19 activity, CYP2C19 activity can be estimated by quantitative analysis of 123I-PIA levels. Thus, 123I-IMP administration can provide diagnostic information not only regarding cerebral blood flow (rCBF) but also regarding metabolic function. The aim of the present study was to detect variations in CYP activity in mice using metabolite analysis. MethodsMetabolism of 125I-IMP in pooled homogenates of mouse liver (MLH) was analyzed by high-performance liquid chromatography (HPLC) in the presence or absence of NADPH. The amount of 125I-PIA generated was calculated as the normalized peak area of the chromatogram. Inhibition of 125I-IMP metabolism was evaluated using the inhibitor SKF-525A. A biodistribution study of 125I-IMP was performed to determine the organ distribution of 125I-IMP/125I-IMP metabolites and the effect of SKF-525A. Variations in CYP activity in vivo were detected by administration of 123I-IMP and/or SKF-525A to mice. The liver and the kidney were then excised, homogenized and analyzed using HPLC. Results125I-IMP was metabolized by MLH in the presence of NADPH, and the production of 125I-PIA was inhibited by SKF-525A. SKF-525A did not greatly affect the biodistribution of 125I-IMP/125I-IMP metabolites in vivo. Both 123I-IMP and 123I-PIA were detected in organs of control mice. However, 123I-PIA was not detected in the livers or kidneys of mice treated with SKF-525A. ConclusionsCYP activity in vivo was inhibited by SKF-525A treatment. Variations in CYP activity could be detected in the blood, liver and kidney as changes in the peak area of 123I-PIA. Advances in knowledge and implications for patient care123I-IMP metabolite analysis has the potential to provide beneficial information for prediction of the effect of medicines, in addition to its contribution to more accurate rCBF diagnosis that reflects individual CYP activity.

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