Laboratory of Mucosal Barrier Pathobiology, Department of Pathology, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts.
Laboratory of Molecular Biochemistry, Anhui Medical University, Anhui, China.
Curr Protoc Immunol. 2020 Dec;131(1):e112. doi: 10.1002/cpim.112.
Tight junctions form a selectively permeable barrier that limits paracellular flux across epithelial-lined surfaces. Small molecules (less than ∼8 Å diameter) can traverse the junction via the size- and charge-selective, high-conductance pore pathway. In contrast, the low-conductance leak pathway accommodates larger macromolecules (up to ∼100 Å diameter) and is not charge-selective. Flux across the tight junction-independent, high-conductance, non-selective, unrestricted pathway occurs at sites of epithelial damage. Cytokines can regulate each of these pathways, but commonly used measures of barrier function cannot discriminate between tight junction regulation and epithelial damage. This article describes methods for culturing intestinal epithelial cell monolayers and assessing the impact of cytokine treatment on leak and unrestricted pathway permeabilities. © 2020 Wiley Periodicals LLC. Basic Protocol 1: Generation and culture of cell monolayers in Transwells Basic Protocol 2: Assessment of cytokine (IFNγ and TNF) treatment effects on barrier function Support Protocol: Immunofluorescent staining of monolayers Basic Protocol 3: Multiplex flux assay.
紧密连接形成具有选择性渗透性的屏障,限制上皮衬里表面的旁细胞通量。小分子(直径小于约 8 Å)可以通过大小和电荷选择性的高电导孔道途径穿过连接。相比之下,低电导渗漏途径可容纳更大的大分子(直径可达约 100 Å),并且没有电荷选择性。在上皮损伤部位,通过紧密连接非依赖性、高电导、非选择性、无限制的途径发生通量。细胞因子可以调节这些途径中的每一种,但常用的屏障功能测量方法不能区分紧密连接调节和上皮损伤。本文描述了培养肠上皮细胞单层并评估细胞因子处理对渗漏和无限制途径通透性的影响的方法。© 2020 Wiley Periodicals LLC. 基本方案 1:在 Transwell 中生成和培养细胞单层 基本方案 2:评估细胞因子(IFNγ 和 TNF)处理对屏障功能的影响 支持方案:单层的免疫荧光染色 基本方案 3:多重通量测定。