Universitaet Regensburg, Institut fuer Analytische Chemie, Chemo- & Biosensorik, Universitaetsstr. 31, 93053, Regensburg (G), Germany.
nanoAnalytics GmbH, Heisenbergstr. 11, 48149, Münster (G), Germany.
Sci Rep. 2020 Apr 30;10(1):7373. doi: 10.1038/s41598-020-63624-1.
Epithelial and endothelial barrier function is typically studied in vitro by growing the cells of interest on permeable supports that are sandwiched between two fluid compartments. This setup mimics the physiological situation with the cell layer as the diffusion barrier at the interface between two chemically distinct fluids. Routinely, the barrier function is quantitatively described by two key parameters: (i) the transepithelial or transendothelial electrical resistance (TER) as a measure of the permeability for small inorganic ions and (ii) the permeability coefficient (P) as a descriptor of the permeability for molecular tracers. So far the two parameters have been determined in separate experiments. This study introduces a device that allows for simultaneous detection of P and TER of the very same cell monolayer in one single experiment (PTER-assay). The novel approach is entirely based on AC impedance measurements in two different modes, so that TER and P become available in real time. The new approach is demonstrated for three epithelial cell lines derived from the kidney (MDCK-I, MDCK-II, NRK) with very different barrier properties under stationary conditions and when challenged by barrier-breaking fungal toxin cytochalasin D. PTER provides an excellent time-resolution and completely automated data collection.
上皮细胞和内皮细胞屏障功能通常在体外通过将感兴趣的细胞生长在夹在两个流体隔室之间的可渗透支持物上来研究。这种设置模拟了细胞层作为两种化学性质不同的流体之间界面的扩散屏障的生理情况。通常,通过两个关键参数定量描述屏障功能:(i) 跨上皮或跨内皮电阻 (TER) 作为小无机离子渗透性的度量,以及 (ii) 作为分子示踪剂渗透性描述符的渗透系数 (P)。到目前为止,这两个参数已经在单独的实验中确定。本研究介绍了一种设备,该设备允许在单个实验中同时检测非常相同的单层细胞的 P 和 TER(PTER 测定法)。新方法完全基于两种不同模式的交流阻抗测量,因此 TER 和 P 可实时获得。该新方法在三种具有不同屏障特性的肾脏来源的上皮细胞系(MDCK-I、MDCK-II、NRK)中进行了演示,在静止条件下以及受到破坏屏障的真菌毒素细胞松弛素 D 挑战时,该方法具有出色的时间分辨率和完全自动化的数据采集。
