Estimation of Drug Binding to Brain Tissue: Methodology and in Vivo Application of a Distribution Assay in Brain Polar Lipids

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• 作者：Sara Belli ; Frauke Assmus ; Bjoern Wagner ; Michael Honer ; Holger Fischer ; Franz Schuler ; Rub茅n Alvarez-S谩nchez
• 刊名：Molecular Pharmaceutics
• 出版年：2015
• 出版时间：December 7, 2015
• 年：2015
• 卷：12
• 期：12
• 页码：4529-4541
• 全文大小：533K
• ISSN：1543-8392

文摘

The unbound drug concentration-effect relationship in brain is a key aspect in CNS drug discovery and development. In this work, we describe an in vitro high-throughput distribution assay between an aqueous buffer and a microemulsion of porcine brain polar lipids (BPL). The derived distribution coefficient LogD_BPL was applied to the prediction of unbound drug concentrations in brain (C_u,b) and nonspecific binding to brain tissue. The in vivo relevance of the new assay was assessed for a large set of proprietary drug candidates and CNS drugs by (1) comparing observed compound concentrations in rat CSF with C_u,b calculated using the LogD_BPL assay in combination with total drug brain concentrations, (2) comparing C_u,b derived from LogD_BPL and total drug brain concentrations to C_u,b estimated using in vitro P-glycoprotein efflux ratio data and unbound drug plasma levels, and (3) comparing tissue nonspecific binding data from human brain autoradiography studies for 17 PET tracer candidates to distribution in BPL. In summary, the LogD_BPL assay provides a predicted drug fraction unbound in brain tissue that is nearly identical to brain homogenate equilibrium dialysis with an estimation of in vivo C_u,b that is superior to LogD in octanol. LogD_BPL complements the approach for predicting C_u,b based on in vitro P-glycoprotein efflux ratio and in vivo unbound plasma concentration and stands as a fast and cost-effective tool for nonspecific brain binding optimization of PET ligand candidates.