UPLC/MS/MS ANALYSIS OF 9 METABOLITES FOR CYTOCHROME P450 INHIBITION STUDIES IN A SINGLE ANALYTICAL RUN
Posters | 2019 | WatersInstrumentation
The profiling of cytochrome P450 (CYP) metabolite inhibition is critical in drug discovery and development to predict drug–drug interactions and metabolic liabilities. A high throughput method enabling simultaneous analysis of multiple CYP isoforms streamlines pharmacokinetic screening, conserves resources, and accelerates decision making.
This work demonstrates the application of the MetaboQuan-R UPLC/MS/MS platform to measure inhibition of nine CYP450 metabolites representing major human isoforms (CYP1A2, 2B6, 2C8, 2C9, 2C19, 2D6, 3A4) in a single analytical run. The new approach is benchmarked against conventional separate assays for accuracy and reproducibility.
The method employs an ACQUITY I-Class FL UPLC system with a CORTECS T3 column at 60 °C. Mobile phases consist of aqueous 0.01% formic acid with 0.2 mM ammonium formate and organic 50/50 acetonitrile/isopropanol with 0.01% formic acid and 0.2 mM ammonium formate. A Xevo TQ-S Micro mass spectrometer in MRM mode tracks specific transitions for each metabolite and an internal standard. The generic gradient allows minimal adjustments between compound classes.
Chromatographic separation of all nine metabolites was achieved with clear resolution of isobaric species. IC50 values obtained in the combined assay agreed closely with those from separate runs for six of nine metabolites. Discrepancies in hydroxy-paclitaxel, hydroxy-mephenytoin, and acetaminophen assays were attributed to sample cassette preparation variability and potential thermal degradation. Future work will address these issues.
Further optimization of sample handling and cassette preparation is expected to improve reproducibility. The platform’s generic design can be extended to broader metabolomics and lipidomics studies, integration with automated workflows, and scaling to high-density microplate formats for industrial applications.
The MetaboQuan-R UPLC/MS/MS method provides a robust, high-throughput solution for CYP inhibition profiling, consolidating multiple assays into a single run without sacrificing data quality. Addressing current limitations will expand its utility across biomedical research and drug development.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesMetabolomics
ManufacturerWaters
Summary
Importance of the Topic
The profiling of cytochrome P450 (CYP) metabolite inhibition is critical in drug discovery and development to predict drug–drug interactions and metabolic liabilities. A high throughput method enabling simultaneous analysis of multiple CYP isoforms streamlines pharmacokinetic screening, conserves resources, and accelerates decision making.
Study Objectives and Overview
This work demonstrates the application of the MetaboQuan-R UPLC/MS/MS platform to measure inhibition of nine CYP450 metabolites representing major human isoforms (CYP1A2, 2B6, 2C8, 2C9, 2C19, 2D6, 3A4) in a single analytical run. The new approach is benchmarked against conventional separate assays for accuracy and reproducibility.
Methodology and Instrumentation
The method employs an ACQUITY I-Class FL UPLC system with a CORTECS T3 column at 60 °C. Mobile phases consist of aqueous 0.01% formic acid with 0.2 mM ammonium formate and organic 50/50 acetonitrile/isopropanol with 0.01% formic acid and 0.2 mM ammonium formate. A Xevo TQ-S Micro mass spectrometer in MRM mode tracks specific transitions for each metabolite and an internal standard. The generic gradient allows minimal adjustments between compound classes.
Main Results and Discussion
Chromatographic separation of all nine metabolites was achieved with clear resolution of isobaric species. IC50 values obtained in the combined assay agreed closely with those from separate runs for six of nine metabolites. Discrepancies in hydroxy-paclitaxel, hydroxy-mephenytoin, and acetaminophen assays were attributed to sample cassette preparation variability and potential thermal degradation. Future work will address these issues.
Benefits and Practical Applications
- Reduces sample injection count from three to one, enhancing throughput.
- Standardizes mobile and stationary phases for diverse analytes.
- Conserves solvents and reduces analysis time, supporting cost-effective DMPK screening.
Future Trends and Potential Applications
Further optimization of sample handling and cassette preparation is expected to improve reproducibility. The platform’s generic design can be extended to broader metabolomics and lipidomics studies, integration with automated workflows, and scaling to high-density microplate formats for industrial applications.
Conclusion
The MetaboQuan-R UPLC/MS/MS method provides a robust, high-throughput solution for CYP inhibition profiling, consolidating multiple assays into a single run without sacrificing data quality. Addressing current limitations will expand its utility across biomedical research and drug development.
Reference
- Waters Corporation. MetaboQuan-R targeted omics platform for high- throughput UPLC/MS/MS analysis.
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