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Quantifying tensile forces at cell–cell junctions with a DNA-based fluorescent probe

Bin Zhao, Ningwei Li, Tianfa Xie, Yousef Bagheri, Chungwen Liang, Puspam Keshri, Yubing Sun, Mingxu You

2020Chemical Science62 citationsDOIOpen Access PDF

Abstract

Cells are physically contacting with each other. Direct and precise quantification of forces at cell-cell junctions is still challenging. Herein, we have developed a DNA-based ratiometric fluorescent probe, termed DNAMeter, to quantify intercellular tensile forces. These lipid-modified DNAMeters can spontaneously anchor onto live cell membranes. The DNAMeter consists of two self-assembled DNA hairpins of different force tolerance. Once the intercellular tension exceeds the force tolerance to unfold a DNA hairpin, a specific fluorescence signal will be activated, which enables the real-time imaging and quantification of tensile forces. Using E-cadherin-modified DNAMeter as an example, we have demonstrated an approach to quantify, at the molecular level, the magnitude and distribution of E-cadherin tension among epithelial cells. Compatible with readily accessible fluorescence microscopes, these easy-to-use DNA tension probes can be broadly used to quantify mechanotransduction in collective cell behaviors.

Topics & Concepts

FluorescenceBiophysicsCellDNAUltimate tensile strengthMaterials scienceChemistryNanotechnologyChemical physicsComposite materialOpticsBiologyPhysicsBiochemistryRNA Interference and Gene DeliveryCellular Mechanics and InteractionsPolymer Surface Interaction Studies