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膜双层的各个小叶可以独立调节通透性。

Individual leaflets of a membrane bilayer can independently regulate permeability.

作者信息

Negrete H O, Rivers R L, Goughs A H, Colombini M, Zeidel M L

机构信息

Laboratory of Epithelial Cell Biology, Renal-Electrolyte Division, University of Pittsburgh Medical Center, Pennsylvania 15213, USA.

出版信息

J Biol Chem. 1996 May 17;271(20):11627-30. doi: 10.1074/jbc.271.20.11627.

Abstract

Water rapidly crosses most membranes, but only slowly crosses apical membranes of barrier epithelia such as bladder and kidney collecting duct, a feature essential to barrier function. How apical membrane structure reduces permeabilities remains unclear. Cell plasma membranes contain two leaflets of distinct lipid composition; the role of this bilayer asymmetry in membrane permeability is unclear. To determine how asymmetry of leaflet composition affects membrane permeability, effects on bilayer permeation of reducing single leaflet permeability were determined using two approaches: formation of asymmetric bilayers in an Ussing chamber, with only one of two leaflets containing cholesterol sulfate, and stabilization of the external leaflet of unilamellar vesicles with praeseodymium (Pr3+). In both systems, permeability measurements showed that each leaflet acts as an independent resistor of water permeation. These results show that a single bilayer leaflet can act as the barrier to permeation and provide direct evidence that segregation of lipids to create a low permeability of barrier epithelial apical membranes.

摘要

水能够迅速穿过大多数细胞膜,但穿过膀胱和肾集合管等屏障上皮的顶端膜却很缓慢,这一特性对屏障功能至关重要。顶端膜结构如何降低通透性尚不清楚。细胞质膜包含两个脂质组成不同的小叶;这种双层不对称性在膜通透性中的作用尚不清楚。为了确定小叶组成的不对称性如何影响膜通透性,我们使用两种方法来测定降低单小叶通透性对双层渗透的影响:在尤斯灌流室中形成不对称双层,其中只有两个小叶中的一个含有硫酸胆固醇,以及用镨(Pr3+)稳定单层囊泡的外部小叶。在这两个系统中,通透性测量表明每个小叶都充当水渗透的独立电阻。这些结果表明,单个双层小叶可以作为渗透的屏障,并提供直接证据证明脂质的分离导致屏障上皮顶端膜的低通透性。

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