Evaluation of the utility of brain slice methods to study brain penetration

The objective of this study was to evaluate the utility of brain tissue slices to determine the effect of plasma and brain tissue nonspecific binding on the brain-to-plasma ratio (K-p). Mouse or rat brain slices ( 400 mu m) were prepared using a McIlwain tissue chopper ( Surrey, UK) and incubated with 1 mu g/ml of compound at 37 degrees C either in a physiological buffer to determine the buffer-to-slice concentration ratio, i.e., unbound fraction in brain tissue (f(u, slice)), or in plasma to determine the slice-to-plasma concentration ratio (C-slice/C-plasma). The unbound fraction in plasma, f(u,plasma), was determined using equilibrium dialysis. In vitro-in vivo correlation of the brain-to-plasma ratio was examined for 13 and eight model compounds in mice and rats, respectively. C-slice/C-plasma and f(u,plasma)/f(u,slice) predicted the K-p in rats, and C-slice/C-plasma predicted the K-p in FVB mice for non-P-glycoprotein substrates within 3-fold but overpredicted K-p for P-glycoprotein substrates by more than 3-fold. However, C-slice/C-plasma predicted the K-p in mdr1a/1b knockout mice for both non-P-glycoprotein and P-glycoprotein substrates. Our present study demonstrates that a brain slice method can be used to differentiate whether a compound having a low Kp is due to the effect of low nonspecific binding to brain tissue relative to plasma proteins or because of efflux transport at the blood-brain barrier.