2024
Nature Nanotechnology

Quantifying T cell receptor mechanics at membrane junctions using DNA origami tension sensors

Authors:

Yuesong Hu, Jhordan Rogers, Yuxin Duan, Arventh Velusamy, Steven Narum, Sarah Al Abdullatif, Khalid Salaita

Keywords:

Biological physics; DNA nanotechnology; T cell receptor; TCR; TCR mechanics; DNA origami tension sensors; DOTS; immune cell–cell junctions

Abstract:

The T cell receptor (TCR) is thought to be a mechanosensor, meaning that it transmits mechanical force to its antigen and leverages the force to amplify the specificity and magnitude of TCR signalling. Although a variety of molecular probes have been proposed to quantify TCR mechanics, these probes are immobilized on hard substrates, and thus fail to reveal fluid TCR–antigen interactions in the physiological context of cell membranes. Here we developed DNA origami tension sensors (DOTS) which bear force sensors on a DNA origami breadboard and allow mapping of TCR mechanotransduction at dynamic intermembrane junctions. We quantified the mechanical forces at fluid TCR–antigen bonds and observed their dependence on cell state, antigen mobility, antigen potency, antigen height and F-actin activity. The programmability of DOTS allows us to tether these to microparticles to mechanically screen antigens in high throughput using flow cytometry. Additionally, DOTS were anchored onto live B cells, allowing quantification of TCR mechanics at immune cell–cell junctions.