The H4b minor histocompatibility antigen is caused by a combination of genetically determined and posttranslational modifications |
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Authors: | Yadav Rajwardhan Yoshimura Yoshitaka Boesteanu Alina Christianson Gregory J Ajayi Wilfred U Shashidharamurthy R Stanic Aleksandar K Roopenian Derry C Joyce Sebastian |
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Affiliation: | Department of Microbiology and Immunology, Vanderbilt University School of Medicine, Nashville, TN 37232, USA. |
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Abstract: | Minor histocompatibility (H) Ag disparities result in graft-vs-host disease and chronic solid allograft rejection in MHC-identical donor-recipient combinations. Minor H Ags are self protein-derived peptides presented by MHC class I molecules. Most arise as a consequence of allelic variation in the bound peptide (p) that results in TCR recognizing the p/MHC as foreign. We used a combinational peptide screening approach to identify the immune dominant H2K(b)-restricted epitope defining the mouse H4(b) minor H Ag. H4(b) is a consequence of a P3 threonine to isoleucine change in the MHC-bound peptide derived from epithelial membrane protein-3. This allelic variation also leads to phosphorylation of the H4(b) but not the H4(a) epitope. Further, ex vivo CD8(+) T lymphocytes bind phosphorylated Ag tetramers with high efficiency. Although we document the above process in the minor H Ag system, posttranslational modifications made possible by subtle amino acid changes could also contribute to immunogenicity and immune dominance in tumor immunotherapeutic settings. |
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