Zonula occluden‐1 (ZO‐1) has been implicated as a major regulator of tight junction formation, functioning as a scaffolding protein and mediator between the junction and the actomyosin cytoskeleton. MDCK II cells that have ZO‐1 knocked‐down (ZO‐1 KD) or knocked‐out (ZO‐1 KO) have observable phenotypic changes, including increased apical actin accumulation, increased cell height, and linearized junctions. The apical actin accumulation, resulting from the dysregulation of myosin II, is suspected to cause an increase in membrane tension seen in the ZO‐1 KO, which may explain the phenotypic changes. The function of ZO‐1 as a regulator of myosin II was confirmed by exposing the ZO‐1 KO to blebbistatin, a myosin II inhibitor, which restored the cell height to that of wild‐type MDCK II cells (WT) and the curvature of the junctions. Flipper‐TR, which is a live cell fluorescent membrane tension probe, along with fluorescence‐lifetime imaging microscopy (FLIM) analysis, are being used to test the membrane tension of the ZO‐1 KO cells compared to WT cells. The Flipper‐TR probe works by inserting itself into a lipid membrane where it undergoes conformational changes induced by membrane tension. The relationship between membrane tension and actin was examined using latrunculin A (LatA), which causes the depolymerization of actin filaments. When both the ZO‐1 KO and WT cells were incubated with LatA, the membrane tension of both decreased to a similar extent. The preliminary results of this testing have shown an increased membrane tension in the ZO‐1 KO cells. To measure the response of ZO‐1 KO cells to increased tension, the expression of tension‐related genes is being measured using quantitative real‐time polymerase chain reaction (qRT‐PCR). These tension‐related genes include the ERM (ezrin, radixin, and moesin) proteins, with a primary interest in ezrin given its known activity as a major regulator of membrane tension in epithelial cells. This study aims to understand the mechanism between ZO‐1 loss and regulation of membrane tension.
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