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Item Type: | Review |
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Title: | Mechanosurveillance: Tiptoeing T cells |
Creators Name: | Göhring, J., Schrangl, L., Schütz, G.J. and Huppa, J.B. |
Abstract: | Efficient scanning of tissue that T cells encounter during their migratory life is pivotal to protective adaptive immunity. In fact, T cells can detect even a single antigenic peptide/MHC complex (pMHC) among thousands of structurally similar yet non-stimulatory endogenous pMHCs on the surface of antigen-presenting cells (APCs) or target cells. Of note, the glycocalyx of target cells, being composed of proteoglycans and bulky proteins, is bound to affect and even modulate antigen recognition by posing as a physical barrier. T cell-resident microvilli are actin-rich membrane protrusions that puncture through such barriers and thereby actively place the considerably smaller T-cell antigen receptors (TCRs) in close enough proximity to APC-presented pMHCs so that productive interactions may occur efficiently yet under force. We here review our current understanding of how the plasticity of T-cell microvilli and physicochemical properties of the glycocalyx may affect early events in T-cell activation. We assess insights gained from studies on T-cell plasma membrane ultrastructure and provide an update on current efforts to integrate biophysical aspects such as the amplitude and directionality of TCR-imposed mechanical forces and the distribution and lateral mobility of plasma membrane-resident signaling molecules into a more comprehensive view on sensitized T-cell antigen recognition. |
Keywords: | Immune Surveillance, Mechanical Force, T-Cell Antigen Recognition, Glycocalyx, Physical Barriers, Microvilli, Membrane Ultrastructure |
Source: | Frontiers in Immunology |
ISSN: | 1664-3224 |
Publisher: | Frontiers Media SA |
Volume: | 13 |
Page Range: | 886328 |
Date: | 26 May 2022 |
Official Publication: | https://doi.org/10.3389/fimmu.2022.886328 |
PubMed: | View item in PubMed |
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