Design of Cytotoxic T Cell Epitopes by Machine Learning of Human Degrons

Truex, Nicholas L.; Mohapatra, Somesh; Melo, Mariane; Rodriguez, Jacob; Na, Li; Abraham, Wuhbet; Sementa, Deborah; Touti, Faycal; Keskin, Derin B.; Catherine J., Wu; Irvine, Darrell J.; Gómez-Bombarelli, Rafael; Pentelute, Bradley L.

doi:10.1021/acscentsci.3c01544

Antigen processing is critical for therapeutic vaccines to generate epitopes for priming cytotoxic T cell responses against cancer and pathogens, but insufficient processing often limits the quantity of epitopes released. We address this challenge using machine learning to ascribe a proteasomal degradation score to epitope sequences. Epitopes with varying scores were translocated into cells using nontoxic anthrax proteins. Epitopes with a low score show pronounced immunogenicity due to antigen processing, but epitopes with a high score show limited immunogenicity. This work sheds light on the sequence-activity relationships between proteasomal degradation and epitope immunogenicity. We anticipate that future efforts to incorporate proteasomal degradation signals into vaccine designs will lead to enhanced cytotoxic T cell priming by these vaccines in clinical settings.

Design of Cytotoxic T Cell Epitopes by Machine Learning of Human Degrons / Truex, Nicholas L.; Mohapatra, Somesh; Melo, Mariane; Rodriguez, Jacob; Li, Na; Abraham, Wuhbet; Sementa, Deborah; Touti, Faycal; Keskin, Derin B.; Wu, Catherine J.; Irvine, Darrell J.; Gómez-Bombarelli, Rafael; Pentelute, Bradley L.. - In: ACS CENTRAL SCIENCE. - ISSN 2374-7951. - 10:4(2024). [10.1021/acscentsci.3c01544]