T细胞受体
生物物理学
化学
生物
免疫系统
T细胞
免疫学
作者
Lukas Schrangl,Florian Kellner,René Platzer,Vanessa Mühlgrabner,Paul Hubinger,Josephine Wieland,Reinhard Obst,José L. Toca‐Herrera,Johannes B. Huppa,Gerhard J. Schuetz,Janett Göhring
标识
DOI:10.1038/s41467-025-62104-2
摘要
Abstract Mechanical forces acting on ligand-engaged T-cell receptors (TCR) have previously been implicated in T-cell antigen recognition and ligand discrimination, yet their magnitude, frequency, and impact remain unclear. Here, we quantitatively assess forces across various TCR:pMHC pairs with different bond lifetimes at single-molecule resolution, both before and during T-cell activation, on platforms that either include or exclude tangential force registration. For this purpose, we use glass-supported lipid bilayers presenting pMHC conjugated to a molecular force sensor unit at its base, adhesion factors and costimulatory molecules to the approaching T-cells. Our results imply that CD4 + T-cell TCRs experience significantly lower forces than previously estimated, with only a small fraction of ligand-engaged TCRs being subjected to these forces during antigen scanning. These rare and minute mechanical forces do not impact the global lifetime distribution of the TCR:ligand bond. We propose that the immunological synapse is created as biophysically stable environment to prevent pulling forces from disturbing antigen recognition.
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