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Class II-restricted T cell receptor engineeredin vitrofor higher affinity retains peptide specificity and function
Author(s) -
K. Scott Weber,
David L. Donermeyer,
Paul M. Allen,
David M. Kranz
Publication year - 2005
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.0507554102
Subject(s) - t cell receptor , microbiology and biotechnology , t cell , mutant , biology , peptide , major histocompatibility complex , receptor , clone (java method) , biochemistry , chemistry , genetics , gene , immune system
The T cell receptor (TCR) alphabeta heterodimer determines the peptide and MHC specificity of a T cell. It has been proposed that in vivo selection processes maintain low TCR affinities because T cells with higher-affinity TCRs would (i) have reduced functional capacity or (ii) cross-react with self-peptides resulting in clonal deletion. We used the class II-restricted T cell clone 3.L2, specific for murine hemoglobin (Hb/I-E(k)), to explore these possibilities by engineering higher-affinity TCR mutants. A 3.L2 single-chain TCR (Vbeta-linker-Valpha) was mutagenized and selected for thermal stability and surface expression in a yeast display system. Stabilized mutants were used to generate a library with CDR3 mutations that were selected with Hb/I-E(k) to isolate a panel of affinity mutants with K(D) values as low as 25 nM. Kinetic analysis of soluble single-chain TCRs showed that increased affinities were the result of both faster on-rates and slower off-rates. T cells transfected with the mutant TCRs and wild-type TCR responded to similar concentrations of peptide, indicating that the increased affinity was not detrimental to T cell activation. T cell transfectants maintained exquisite hemoglobin peptide specificity, but an altered peptide ligand that acted as an antagonist for the wild-type TCR was converted to a strong agonist with higher-affinity TCRs. These results show that T cells with high-affinity class II reactive TCRs are functional, but there is an affinity threshold above which an increase in affinity does not result in significant enhancement of T cell activation.

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