AI Article Synopsis
- Antigen recognition by T-cell receptors (TCRs) is crucial for the adaptive immune system, and it starts when TCRs bind to specific peptides displayed by major histocompatibility complex (pMHC) molecules.
- The study used advanced microscopy to differentiate between clustered TCR-CD3 complexes that were either activated or inactive and found that only those in dense clusters could trigger phosphorylation and signaling events.
- The density of these clusters depends on the amount of pMHC and the strength of TCR-pMHC binding, indicating that the clustering of TCR-CD3 complexes is essential for converting antigen detection into a signaling response.
Article Abstract
Antigen recognition by the T-cell receptor (TCR) is a hallmark of the adaptive immune system. When the TCR engages a peptide bound to the restricting major histocompatibility complex molecule (pMHC), it transmits a signal via the associated CD3 complex. How the extracellular antigen recognition event leads to intracellular phosphorylation remains unclear. Here, we used single-molecule localization microscopy to quantify the organization of TCR-CD3 complexes into nanoscale clusters and to distinguish between triggered and nontriggered TCR-CD3 complexes. We found that only TCR-CD3 complexes in dense clusters were phosphorylated and associated with downstream signaling proteins, demonstrating that the molecular density within clusters dictates signal initiation. Moreover, both pMHC dose and TCR-pMHC affinity determined the density of TCR-CD3 clusters, which scaled with overall phosphorylation levels. Thus, TCR-CD3 clustering translates antigen recognition by the TCR into signal initiation by the CD3 complex, and the formation of dense signaling-competent clusters is a process of antigen discrimination.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5027455 | PMC |
| http://dx.doi.org/10.1073/pnas.1607436113 | DOI Listing |
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