Mork Family Department of Chemical Engineering and Materials Science, University of Southern California, California 90089, USA.
Anal Chem. 2010 Sep 15;82(18):7766-71. doi: 10.1021/ac1016826.
The ability of a molecule to pass through the plasma membrane without the aid of any active cellular mechanisms is central to that molecule's pharmaceutical characteristics. Passive transport has been understood in the context of Overton's rule, which states that more lipophilic molecules cross membrane lipid bilayers more readily. Existing techniques for measuring passive transport lack reproducibility and are hampered by the presence of an unstirred layer (USL) that dominates transport across the bilayer. This report describes assays based on spinning-disk confocal microscopy (SDCM) of giant unilamellar vesicles (GUVs) that allow for the detailed investigation of passive transport processes and mechanisms. This approach allows the concentration field to be directly observed, allowing membrane permeability to be determined easily from the transient concentration profile data. A series of molecules of increasing hydrophilicity was constructed, and the transport of these molecules into GUVs was observed. The observed permeability trend is consistent with Overton's rule. However, the values measured depart from the simple partition-diffusion proportionality model of passive transport. This technique is easy to implement and has great promise as an approach to measure membrane transport. It is optimally suited to precise quantitative measurements of the dependence of passive transport on membrane properties.
分子无需任何主动细胞机制就能穿过质膜的能力是该分子药物特性的核心。被动转运的概念是基于 Overton 规则提出的,该规则指出,亲脂性分子更容易穿过膜脂双层。现有的测量被动转运的技术缺乏重现性,并且受到未搅动层(unstirred layer,USL)的阻碍,该层主导着双层的转运。本报告描述了基于旋转盘共聚焦显微镜(spinning-disk confocal microscopy,SDCM)的巨大单层囊泡(giant unilamellar vesicles,GUVs)的测定方法,这些方法允许详细研究被动转运过程和机制。这种方法可以直接观察浓度场,从而可以轻松地从瞬态浓度分布数据中确定膜的通透性。构建了一系列亲水性逐渐增加的分子,并观察这些分子进入 GUVs 的转运情况。观察到的通透性趋势与 Overton 规则一致。然而,测量值与被动转运的简单分配扩散比例模型不符。该技术易于实施,并且有望成为测量膜转运的一种方法。它非常适合于精确测量被动转运对膜性质的依赖性。