TY - JOUR T1 - Measurement of Unbound Drug Exposure in Brain: Modelling of pH Partitioning Explains Diverging Results between the Brain Slice and Brain Homogenate Methods JF - Drug Metabolism and Disposition JO - Drug Metab Dispos DO - 10.1124/dmd.110.035998 SP - dmd.110.035998 AU - Markus Friden AU - Fredrik Bergstrom AU - Hong Wan AU - Mikael Rehngren AU - Gustav Ahlin AU - Margareta Hammarlund-Udenaes AU - Ulf Bredberg Y1 - 2010/01/01 UR - http://dmd.aspetjournals.org/content/early/2010/12/13/dmd.110.035998.abstract N2 - Currently used methodology for determining unbound drug exposure in brain combines measurement of the total drug concentration in the whole brain in vivo with estimation of brain tissue binding from one of two available in vitro methods: equilibrium dialysis of brain homogenate and the brain slice uptake method. This study of 56 compounds compares the fraction of unbound drug in brain (fu,brain), determined using the brain homogenate method, with the unbound volume of distribution in brain (Vu,brain), determined using the brain slice method. Discrepancies were frequent and primarily related to drug pH partitioning, due to the preservation of cellular structures in the slice that are absent in the homogenate. A mathematical model for pH partitioning into acidic intracellular compartments was derived to predict the slice Vu,brain from measurements of fu,brain and drug pKa. This model allowed prediction of Vu,brain from fu,brain within a 2.2-fold error range for 95% of the drugs, as compared to a 4.5-fold error range using the brain homogenate fu,brain method alone. The greatest discrepancies between the methods occurred with compounds that are actively transported into brain cells, including gabapentin, metformin and prototypic organic cation transporter substrates. It is concluded that intra-brain drug distribution is governed by several diverse mechanisms in addition to non-specific binding and that the slice method is therefore more reliable than the homogenate method. Alternatively, predictions of Vu,brain can be made from homogenate fu,brain using the presented pH partition model, although this model does not take into consideration possible active brain cell uptake. ER -