Serial triggering of many T-cell receptors by a few peptide–MHC complexes
- 1 May 1995
- journal article
- Published by Springer Nature in Nature
- Vol. 375 (6527) , 148-151
- https://doi.org/10.1038/375148a0
Abstract
T lymphocytes can recognize and be activated by a very small number of complexes of peptide with major histocompatibility complex (MHC) molecules displayed on the surface of antigen-presenting cells (APCs). The interaction between the T-cell receptor (TCR) and its ligand has low affinity and high off-rate. Both findings suggest that an extremely small number of TCRs must be engaged in interaction with APCs and raise the question of how so few receptors can transduce an activation signal. Here we show that a small number of peptide-MHC complexes can achieve a high TCR occupancy, because a single complex can serially engage and trigger up to approximately 200 TCRs. Furthermore, TCR occupancy is proportional to the T cell's biological response. Our findings suggest that the low affinity of the TCR can be instrumental in enabling a small number of antigenic complexes to be detected.Keywords
This publication has 26 references indexed in Scilit:
- Normal T lymphocytes can express two different T cell receptor beta chains: implications for the mechanism of allelic exclusion.The Journal of Experimental Medicine, 1995
- Partial T cell signaling: Altered phospho-? and lack of zap70 recruitment in APL-induced T cell anergyCell, 1994
- Kinetics and affinity of reactions between an antigen-specific T cell receptor and peptide-MHC complexesImmunity, 1994
- Tickling the TCR: selective T-cell functions stimulated by altered peptide ligandsImmunology Today, 1993
- Preferential V beta gene usage and lack of junctional sequence conservation among human T cell receptors specific for a tetanus toxin-derived peptide: evidence for a dominant role of a germline-encoded V region in antigen/major histocompatibility complex recognition.The Journal of Experimental Medicine, 1992
- Low Affinity Interaction of Peptide-MHC Complexes with T Cell ReceptorsScience, 1991
- MHC class II structure, occupancy and surface expression determined by post-endoplasmic reticulum antigen bindingNature, 1991
- The Minimal Number of Class II MHC-Antigen Complexes Needed for T Cell ActivationScience, 1990
- Universally immunogenic T cell epitopes: promiscuous binding to human MHC class II and promiscuous recognition by T cellsEuropean Journal of Immunology, 1989
- Model system evaluating fluorescein‐labeled microbeads as internal standards to calibrate fluorescence intensity on flow cytometersCytometry, 1989