Genomic and bioinformatic profiling of mutational neoepitopes reveals new rules to predict anticancer immunogenicity

F Duan, J Duitama, S Al Seesi, CM Ayres… - Journal of Experimental …, 2014 - rupress.org
F Duan, J Duitama, S Al Seesi, CM Ayres, SA Corcelli, AP Pawashe, T Blanchard…
Journal of Experimental Medicine, 2014rupress.org
The mutational repertoire of cancers creates the neoepitopes that make cancers
immunogenic. Here, we introduce two novel tools that identify, with relatively high accuracy,
the small proportion of neoepitopes (among the hundreds of potential neoepitopes) that
protect the host through an antitumor T cell response. The two tools consist of (a) the
numerical difference in NetMHC scores between the mutated sequences and their
unmutated counterparts, termed the differential agretopic index, and (b) the conformational …
The mutational repertoire of cancers creates the neoepitopes that make cancers immunogenic. Here, we introduce two novel tools that identify, with relatively high accuracy, the small proportion of neoepitopes (among the hundreds of potential neoepitopes) that protect the host through an antitumor T cell response. The two tools consist of (a) the numerical difference in NetMHC scores between the mutated sequences and their unmutated counterparts, termed the differential agretopic index, and (b) the conformational stability of the MHC I–peptide interaction. Mechanistically, these tools identify neoepitopes that are mutated to create new anchor residues for MHC binding, and render the overall peptide more rigid. Surprisingly, the protective neoepitopes identified here elicit CD8-dependent immunity, even though their affinity for Kd is orders of magnitude lower than the 500-nM threshold considered reasonable for such interactions. These results greatly expand the universe of target cancer antigens and identify new tools for human cancer immunotherapy.
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