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Literature DB >> 21112354

Single cell force spectroscopy of T cells recognizing a myelin-derived peptide on antigen presenting cells.

Sabrina Hoffmann^1,2, Babak H Hosseini³, Markus Hecker², Ilia Louban³, Nadja Bulbuc¹, Natalio Garbi¹, Guido H Wabnitz⁴, Yvonne Samstag⁴, Joachim P Spatz³, Günter J Hämmerling¹.

Abstract

T-cell recognition of peptide-MHC complexes on APCs requires cell-cell interactions. The molecular events leading to T-cell activation have been extensively investigated, but the underlying physical binding forces between T-cells and APCs are largely unknown. We used single cell force spectroscopy for quantitation of interaction forces between T-cells and APCs presenting a tolerogenic peptide derived from myelin basic protein. When T-cells were brought into contact with peptide-loaded APCs, interaction forces increased with time from about 0.5nN after 10s interaction to about 15nN after 30min. In the absence of antigen, or when ICAM-1-negative APC was used, no increase in binding forces was observed. The temporal development of interaction forces correlated with the kinetics of immune synapse formation, as determined by LFA-1 and TCR enrichment at the interface of T-cell/APC conjugates using high throughput multispectral imaging flow cytometry. Together, these results suggest that ICAM-1/LFA-1 redistribution to the contact area is mainly responsible for development of strong interaction forces. High forces will keep T-cells and APCs in tight contact, thereby providing a platform for optimal interaction between TCRs and peptide-MHC complexes.

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Year: 2010 PMID： 21112354 PMCID： PMC3821867 DOI： 10.1016/j.imlet.2010.11.005

Source DB: PubMed Journal: Immunol Lett ISSN： 0165-2478 Impact factor: 3.685

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