TY - JOUR
T1 - Disulfide bond engineering to trap peptides in the MHC class I binding groove
AU - Truscott, Steven M.
AU - Lybarger, Lonnie
AU - Martinko, John M.
AU - Mitaksov, Vesselin E.
AU - Kranz, David M.
AU - Connolly, Janet M.
AU - Fremont, Daved H.
AU - Hansen, Ted H.
PY - 2007/5/15
Y1 - 2007/5/15
N2 - Immunodominant peptides in CD8 T cell responses to pathogens and tumors are not always tight binders to MHC class I molecules. Furthermore, antigenic peptides that bind weakly to the MHC can be problematic when designing vaccines to elicit CD8 T cells in vivo or for the production of MHC multimers for enumerating pathogen-specific T cells in vitro. Thus, to enhance peptide binding to MHC class I, we have engineered a disulfide bond to trap antigenic peptides into the binding groove of murine MHC class I molecules expressed as single-chain trimers or SCTs. These SCTs with disulfide traps, termed dtSCTs, oxidized properly in the endoplasmic reticulum, transited to the cell surface, and were recognized by T cells. Introducing a disulfide trap created remarkably tenacious MHC/peptide complexes because the peptide moiety of the dtSCT was not displaced by high-affinity competitor peptides, even when relatively weak binding peptides were incorporated into the dtSCT. This technology promises to be useful for DNA vaccination to elicit CD8 T cells, in vivo study of CD8 T cell development, and construction of multivalent MHC/peptide reagents for the enumeration and tracking of T cells - particularly when the antigenic peptide has relatively weak affinity for the MHC.
AB - Immunodominant peptides in CD8 T cell responses to pathogens and tumors are not always tight binders to MHC class I molecules. Furthermore, antigenic peptides that bind weakly to the MHC can be problematic when designing vaccines to elicit CD8 T cells in vivo or for the production of MHC multimers for enumerating pathogen-specific T cells in vitro. Thus, to enhance peptide binding to MHC class I, we have engineered a disulfide bond to trap antigenic peptides into the binding groove of murine MHC class I molecules expressed as single-chain trimers or SCTs. These SCTs with disulfide traps, termed dtSCTs, oxidized properly in the endoplasmic reticulum, transited to the cell surface, and were recognized by T cells. Introducing a disulfide trap created remarkably tenacious MHC/peptide complexes because the peptide moiety of the dtSCT was not displaced by high-affinity competitor peptides, even when relatively weak binding peptides were incorporated into the dtSCT. This technology promises to be useful for DNA vaccination to elicit CD8 T cells, in vivo study of CD8 T cell development, and construction of multivalent MHC/peptide reagents for the enumeration and tracking of T cells - particularly when the antigenic peptide has relatively weak affinity for the MHC.
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U2 - 10.4049/jimmunol.178.10.6280
DO - 10.4049/jimmunol.178.10.6280
M3 - Article
C2 - 17475856
AN - SCOPUS:34248212778
SN - 0022-1767
VL - 178
SP - 6280
EP - 6289
JO - Journal of Immunology
JF - Journal of Immunology
IS - 10
ER -