Na-caprate-induced increase in MDCK II epithelial cell leak pathway permeability and opening number is associated with disruption of basal F-actin organization.
Shivani Rana, Leyla Nasr, Daniel Chang, Josephine Axis, Kurt Amsler
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引用次数: 0
Abstract
Confluent populations of the epithelial cell line, MDCK II, develop circumferential tight junctions joining adjacent cells to create a barrier to the paracellular movement of solutes and water. Treatment of MDCK II cell populations from the apical surface with 1 mM Na-caprate increased permeability to macromolecules (Leak Pathway) without increasing monolayer disruption or cell death. Graphical analysis of the apparent permeability versus solute Stokes radius for a size range of fluorescein-dextran species indicates apical 1 mM Na-caprate enhances Leak Pathway permeability by increasing the number of Leak Pathway openings without significantly affecting opening size. Na-caprate treatment did not alter the content of any tight junction protein examined. Treatment of MDCK II cell populations with apical 1 mM Na-caprate disrupted basal F-actin stress fibers and decreased the tortuosity of the tight junctions. Treatment of MDCK II cell populations with blebbistatin, a myosin ATPase inhibitor, alone had little effect on Leak Pathway permeability but synergistically increased Leak Pathway permeability when added with 1 mM Na-caprate. Na-caprate exhibited a similar ability to increase Leak Pathway permeability in wild-type MDCK II cell monolayers and ZO-1 knockdown MDCK II cell monolayers but an enhanced ability to increase Leak Pathway permeability in monolayers of TOCA-1 knockout MDCK II cells. These results demonstrate that Na-caprate increases MDCK II cell population Leak Pathway permeability by increasing the number of Leak Pathway openings. This action is likely mediated by alterations in F-actin organization, primarily involving disruption of basal F-actin stress fibers.NEW & NOTEWORTHY This study determines the underlying change in the openings in the epithelial tight junction permeability barrier structure that leads to a change in the paracellular permeability to macromolecules (the Leak Pathway) and connects this to disruption of specific F-actin structures within the cells. It provides important and novel insights into how tight junction permeability to macromolecules is modulated by specific changes to cellular and tight junction composition/organization.
Na-Caprate 诱导的 MDCK II 上皮细胞漏孔通路通透性和开口数量的增加与基础 F-Actin 组织的破坏有关。
上皮细胞系 MDCK II 的汇合细胞群会形成周向紧密连接,将相邻细胞连接在一起,从而为溶质和水分的细胞旁运动提供屏障。用 1 mM Na-caprate从顶端表面处理 MDCK II 细胞群,可增加其对大分子的通透性(渗漏途径),但不会增加单层破坏或细胞死亡。对荧光素-葡聚糖大小范围的表观通透性与溶质斯托克斯半径的图表分析表明,顶端 1 mM Na-caprate可通过增加泄漏通路开口的数量来提高泄漏通路的通透性,而不会显著影响开口的大小。Na-caprate处理不会改变所检测的任何紧密连接蛋白的含量。用顶端 1 mM Na-caprate处理 MDCK II 细胞群会破坏基底 F-肌动蛋白应力纤维,并降低紧密连接的迂曲度。单独用肌球蛋白 ATP 酶抑制剂 blebbistatin 处理 MDCK II 细胞群对泄漏通路的通透性几乎没有影响,但如果加入 1 mM Na-caprate,则会协同增加泄漏通路的通透性。在野生型 MDCK II 细胞单层和 ZO-1 基因敲除的 MDCK II 细胞单层中,Na-caprate 增加漏孔通路通透性的能力相似,但在 TOCA-1 基因敲除的 MDCK II 细胞单层中,Na-caprate 增加漏孔通路通透性的能力增强。这些结果表明,Na-caprate 可通过增加泄漏通路开口的数量来增加 MDCK II 细胞群的泄漏通路通透性。这种作用可能是由 F-肌动蛋白组织的改变介导的,主要涉及基底 F-肌动蛋白应力纤维的破坏。
期刊介绍:
The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.