Substrate specific metabolism by polymorphic cytochrome P450 2D6 alleles.

A comparative metabolism study was performed for bufuralol, dextromethorphan, imipramine, mianserin, sparteine, tamoxifen, haloperidol and two drug candidates (Rec27/0110 and Rec15/2739) on V79 cells genetically engineered to express human cytochrome P450 (CYP) variants 2D6*1, 2D*2, 2D*9 and 2D*17. Unexpectedly, the CYP2D6*17 dependent metabolism profile of haloperidol and Rec27/0110 were found to differ from all other substrates tested. Some of these known standard substrates are frequently applied in marker reactions for CYP2D6 and with these standard substrates, CYP2D6*1 is known to be the most active form.

Lack of strain-related differences in drug metabolism and efflux transporter characteristics between CD-1 and athymic nude mice.

CD-1 mice are commonly used in oncology metabolism and toxicity to support drug discovery and development and to examine drug metabolism and toxicity properties of new chemical entities. On the other hand, athymic nude mice are the preferred animals to investigate tumor growth inhibition. Therefore, a frequently asked question is: are the metabolic and pharmacokinetic characteristics of xenobiotics in these two mouse strains comparable or not? To address this issue, we characterized drug metabolism and efflux transporter properties in both strains and in different organs.

Phase I and phase II metabolic activities are retained in liver slices from mouse, rat, dog, monkey and human after cryopreservation.

Precision-cut liver slices are described as a valuable tool for in vitro metabolism studies of potential drug candidates. Recently, some papers reported successful cryopreservation conditions for liver slices, facilitating a broader and more efficient use of the tissue (particularly of human origin). The aim of this study is to evaluate the effect of cryopreservation on both phase I and phase II metabolism in liver slices prepared from mouse, rat, dog, monkey and human, using rapid freezing in the presence of 18% DMSO.