AI Article Synopsis
- T-cell receptor (TCR) interactions with major histocompatibility complex (MHC) molecules are crucial for initiating immune responses, but measurements of these interactions in 2D are limited.
- Researchers studied how Jurkat T-cells interact with MHC and adhesion proteins using supported lipid bilayers, revealing that TCR binding was minimally affected by the presence of auxiliary proteins like CD2 up to a certain density.
- Higher CD2 densities decreased binding affinity, and increasing ligand density impacted cell contact size without initially affecting TCR binding, highlighting the role of cellular context in immune responses.
Article Abstract
The affinity of T-cell receptors (TCRs) for major histocompatibility complex molecules (MHCs) presenting cognate antigens likely determines whether T cells initiate immune responses, or not. There exist few measurements of two-dimensional (2D) TCR-MHC interactions, and the effect of auxiliary proteins on binding is unexplored. Here, Jurkat T-cells expressing the MHC molecule HLA-DQ8-glia-α1 and the ligand of an adhesion protein (rat CD2) were allowed to bind supported lipid bilayers (SLBs) presenting fluorescently labelled L3-12 TCR and rat CD2, allowing measurements of binding unconfounded by cell signaling effects or co-receptor binding. The 2D for L3-12 TCR binding to HLA-DQ8-glia-α1, of 14±5 molecules/μm (mean±s.d.), was only marginally influenced by including CD2 up to ∼200 bound molecules/μm but higher CD2 densities reduced the affinity up to 1.9-fold. Cell-SLB contact size increased steadily with ligand density without affecting binding for contacts at up to ∼20% of total cell area, but beyond this lamellipodia appeared, giving an apparent increase in bound receptors of up to 50%. Our findings show how parameters other than the specific protein-protein interaction can influence binding behavior at cell-cell contacts.
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| http://dx.doi.org/10.1242/jcs.245985 | DOI Listing |
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