Physicochemical Profiling (Solubility, Permeability and Charge State)

溶解度 生物制药分类系统 溶解 生物制药 化学 磁导率 膜透性 候选药物 小分子 分子 药物发现 化学工程 有机化学 体外 生物化学 工程类 生药学 生物活性
作者
Alex Avdeef
出处
期刊:Current Topics in Medicinal Chemistry [Bentham Science Publishers]
卷期号:1 (4): 277-351 被引量:574
标识
DOI:10.2174/1568026013395100
摘要

About 30per4cent of drug candidate molecules are rejected due to pharmacokinetic-related failures. When poor pharmaceutical properties are discovered in development, the costs of bringing a potent but poorly absorbable molecule to a product stage by formulation can become very high. Fast and reliable in vitro prediction strategies are needed to filter out problematic molecules at the earliest stages of discovery. This review will consider recent developments in physicochemical profiling used to identify candidate molecules with physical properties related to good oral absorption. Poor solubility and poor permeability account for many PK failures. FDAs Biopharmaceutics Classification System (BCS) is an attempt to rationalize the critical components related to oral absorption. The core idea in the BCS is an in vitro transport model, centrally embracing permeability and solubility, with qualifications related to pH and dissolution. The objective of the BCS is to predict in vivo performance of drug produ cts from in vitro measurements of permeability and solubility. In principle, the framework of the BCS could serve the interests of the earliest stages of discovery research. The BCS can be rationalized by considering Ficks first law, applied to membranes. When molecules are introduced on one side of a lipid membrane barrier (e.g., epithelial cell wall) and no such molecules are on the other side, passive diffusion will drive the molecules across the membrane. When certain simplifying assumptions are made, the flux equation in Ficks law reduces simply to a product of permeability and solubility. Many other measurable properties are closely related to permeability and solubility. Permeability (Pe) is a kinetic parameter related to lipophilicity (as indicated by the partition and distribution coefficients, log P and log D). Retention (R) of lipophilic molecules by the membrane (which is related to lipophilicity and may predict PK volumes of distribution) influences the characterization of permeability. Furthermo re, strong drug interactions with serum proteins can influence permeability. The unstirred water layer on both sides of the membrane barrier can impose limits on permeability. Solubility (S) is a thermodynamic parameter, and is closely related to dissolution, a kinetic parameter. The unstirred water layer on the surfaces of suspended solids imposes limits on dissolution. Bile acids effect both solubility and dissolution, by a micellization effect. For ionizable molecules, pH plays a crucial role. The charge state that a molecule exhibits at a particular pH is characterized by the ionization constant (pKa) of the molecule. Buffers effect pH gradients in the unstirred water layers, which can dramatically affect both permeability and dissolution of ionizable molecules. In this review, we will focus on the emerging instrumental methods for the measurement of the physicochemical parameters Pe, S, pKa, R, log P, and log D (and their pH-profiles). These physicochemical profiles can be valuable tools for the medicina l chemists, aiding in the prediction of in vivo oral absorption. Keywords: Physicochemical Profiling, Permeability, Solubility, ADME, glycoprotein, Biopharmaceutics Classification System (BCS), bioavailability-bioequivalence (BA/BE), IAM Chromatography, High-Throughput log P Methods, DRUG PARTITIONING INTO LIPOSOMES
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