Abstract
1. Among the different in vitro studies recommended by the regulatory agencies, no gold-standard model can easily and directly measure the quantitative CYP450 contributions to drug biotransformation. In this article, we propose an original strategy, called SilensomesTM, to produce human liver microsomes silenced for one specific CYP450, thanks to specific mechanism-based inhibitors (MBI).2. Using azamulin as a specific CYP3A4 MBI, we demonstrated the proof of concept that CYP3A4 can be totally, specifically (even against 3A5) and permanently (at least for six years) inhibited by our process. Thus, comparing clearance in control and CYP3A4-SilensomesTM, CYP3A4 contributions were determined for 11 CYP3A4 substrates which correlated with known in vivo contributions and revealed accuracy with less than 10% error. In comparison, contributions determined using recombinant human CYP450 (rhCYP450s) were less accurate (more than 10% error for 30% of the tested CYP3A4 substrates).3. This easy and ready-to-use in vitro method combines the advantages of existing models (specificity of rhCYP450s and representativeness of HLM) without their drawbacks. The same strategy could be used to silence other major CYP450s one-by-one to provide a complete direct CYP450 quantitative phenotyping kit.
Highlights
The pharmacokinetics of a drug can be influenced by many extrinsic and intrinsic factors (Huang & Rowland, 2012)
These results support the use of CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2D6 and CYP3A4-Silensomes to accurately predict fmCYP values during the in vitro enzyme phenotyping assays in early, as well as in development, phases of drug development
The target Cytochrome P450s (CYPs) were extensively and selectivity inactivated by the selected mechanism-based inhibitors (MBI), while non-target CYPs were inhibited by less than 20% of the homologous control activities
Summary
The pharmacokinetics of a drug can be influenced by many extrinsic and intrinsic factors (Huang & Rowland, 2012). Extrinsic factors that may impact drug pharmacokinetics include drug–drug interactions (DDIs) (the most well-known and common), as well as interactions. It is crucial to have an in vitro model robust and accurate enough to be able to quantitatively measure fmCYP
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