Litcius/Paper detail

The Role of ZO-2 in Modulating JAM-A and γ-Actin Junctional Recruitment, Apical Membrane and Tight Junction Tension, and Cell Response to Substrate Stiffness and Topography

Diana Cristina Pinto-Dueñas, Christian Hernández-Guzmán, Patrick Marsch, Anand Sunil Wadurkar, Dolores Martín-Tapia, Lourdes Alarcón, Genaro Vázquez‐Victorio, Juan Vicente Méndez‐Méndez, José Jorge Chanona‐Pérez, Shikha Nangia, Lorenza González‐Mariscal

2024International Journal of Molecular Sciences12 citationsDOIOpen Access PDF

Abstract

This work analyzes the role of the tight junction (TJ) protein ZO-2 on mechanosensation. We found that the lack of ZO-2 reduced apical membrane rigidity measured with atomic force microscopy, inhibited the association of γ-actin and JAM-A to the cell border, and instead facilitated p114RhoGEF and afadin accumulation at the junction, leading to an enhanced mechanical tension at the TJ measured by FRET, with a ZO-1 tension probe, and increased tricellular TJ tension. Simultaneously, adherens junction tension measured with an E-cadherin probe was unaltered. The stability of JAM-A and ZO-2 binding was assessed by a collaborative in silico study. The absence of ZO-2 also impacted the cell response to the substrate, as monolayers plated in 20 kPa hydrogels developed holes not seen in parental cultures and displayed a retarded elongation and formation of cell aggregates. The absence of ZO-2 was sufficient to induce YAP and Snail nuclear accumulation in cells cultured over glass, but when ZO-2 KD cells were plated in nanostructured ridge arrays, they displayed an increased abundance of nuclear Snail and conspicuous internalization of claudin-4. These results indicate that the absence of ZO-2 also impairs the response of cells to substrate stiffness and exacerbates transformation triggered by substrate topography.

Topics & Concepts

Adherens junctionTight junctionCell biologyBiophysicsCell junctionMechanotransductionInternalizationActinCytoskeletonLamellipodiumChemistryCellBiologyCadherinBiochemistryCellular Mechanics and InteractionsBarrier Structure and Function StudiesHippo pathway signaling and YAP/TAZ