[70-72] However, recent evidence suggests that the requirements f

[70-72] However, recent evidence suggests that the requirements for CD8 co-activation may vary according to antigen potency and TCR–pMHCI affinity. Indeed, we and others[7, 23, 73] have demonstrated that CD8-dependence

during T-cell activation can be linked directly to the affinity of the TCR for pMHCI. In our study, pMHCI molecules with compromised CD8 binding were used to demonstrate check details that T-cell activation could not occur in the presence of weaker agonist antigens without CD8 co-activation, whereas T-cell activation by strong agonists was only partially impaired by the loss of CD8 engagement.[23] Therefore, in instances where antigen potency is low, CD8 appears to play a greater role in increasing T-cell antigen sensitivity. In contrast, for stronger agonists, the contribution of CD8 to T-cell activation may be less.[23] By extension, it might be predicted that the CD8 co-receptor acts to increase T-cell cross-reactivity by facilitating responses to a wider range of agonist selleck compound ligands. To test this idea, we conducted a comprehensive evaluation of clonal CD8+ T-cell degeneracy using combinatorial peptide libraries and antigen-presenting cells expressing mutant HLA-A*0201 molecules with the following CD8 binding affinities: enhanced (KD = 85 μm),[74] normal (KD ∼ 145 μm), decreased (KD = 500 μm)

[38] or abrogated (KD < 10 000 μm). Using this approach, we were able to show a direct positive association between pMHCI–CD8 binding affinity and the number Protein tyrosine phosphatase of ligands that elicited T-cell activation.[75] Furthermore, in agreement with our previous findings, increasing

the affinity of CD8 for HLA-A*0201 by more than one order of magnitude (KD = 10 μm) resulted in the loss of cognate antigen specificity and indiscriminate killing of HLA A2+ target cells.[49, 75] Hence, CD8 extends the range of pMHCI ligands that can be recognized by an individual cell surface-bound TCR, a feature that is essential for effective immune coverage.[76] These findings suggest that the pMHCI–CD8 interaction is necessary to regulate the balance between optimal T-cell cross-reactivity and T-cell antigen specificity. This ‘CD8 effect’ (Fig. 6) can be controlled to optimize the degree of cross-reactivity and antigen sensitivity of CD8+ T cells at various stages of their development. The CD8 co-receptor plays an important and diverse role as a regulator of CD8+ T-cell immunity. Structural investigations have shown that CD8αα binds to an invariant domain of pMHCI independently from the TCR.[24, 25] The interaction between CD8αβ and pMHCI is similar, with the β-chain proximal to the T-cell surface.[28, 29] CD8, and indeed the CD4 co-receptor, may govern T-cell MHC restriction and TCR binding orientation to pMHC by enabling the formation of a functional signalling complex at the T-cell surface.

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