Advancing our knowledge of antigen processing with computational modelling, structural biology, and immunology
Advancing our knowledge of antigen processing with computational modelling, structural biology, and immunology
Antigen processing is an immunological mechanism by which intracellular peptides are transported to the cell surface while bound to Major Histocompatibility Complex molecules, where they can be surveyed by circulating CD8+ or CD4+ T-cells, potentially triggering an immunological response. The antigen processing pathway is a complex multistage filter that refines a huge pool of potential peptide ligands derived from protein degradation into a smaller ensemble for surface presentation. Each stage presents unique challenges due to the number of ligands, the polymorphic nature of MHC and other protein constituents of the pathway and the nature of the interactions between them. Predicting the ensemble of displayed peptide antigens, as well as their immunogenicity, is critical for improving T cell vaccines against pathogens and cancer. Our predictive abilities have always been hindered by an incomplete empirical understanding of the antigen processing pathway. In this review, we highlight the role of computational and structural approaches in improving our understanding of antigen processing, including structural biology, computer simulation, and machine learning techniques, with a particular focus on the MHC-I pathway.
275-285
Turner, Steven Carl
339c8f0a-97d6-4076-9165-b347868b518e
Essex, Jonathan W.
1f409cfe-6ba4-42e2-a0ab-a931826314b5
Elliott, Tim
16670fa8-c2f9-477a-91df-7c9e5b453e0e
27 February 2023
Turner, Steven Carl
339c8f0a-97d6-4076-9165-b347868b518e
Essex, Jonathan W.
1f409cfe-6ba4-42e2-a0ab-a931826314b5
Elliott, Tim
16670fa8-c2f9-477a-91df-7c9e5b453e0e
Turner, Steven Carl, Essex, Jonathan W. and Elliott, Tim
(2023)
Advancing our knowledge of antigen processing with computational modelling, structural biology, and immunology.
Biochemical Society Transactions, 51 (1), .
(doi:10.1042/BST20220782).
Abstract
Antigen processing is an immunological mechanism by which intracellular peptides are transported to the cell surface while bound to Major Histocompatibility Complex molecules, where they can be surveyed by circulating CD8+ or CD4+ T-cells, potentially triggering an immunological response. The antigen processing pathway is a complex multistage filter that refines a huge pool of potential peptide ligands derived from protein degradation into a smaller ensemble for surface presentation. Each stage presents unique challenges due to the number of ligands, the polymorphic nature of MHC and other protein constituents of the pathway and the nature of the interactions between them. Predicting the ensemble of displayed peptide antigens, as well as their immunogenicity, is critical for improving T cell vaccines against pathogens and cancer. Our predictive abilities have always been hindered by an incomplete empirical understanding of the antigen processing pathway. In this review, we highlight the role of computational and structural approaches in improving our understanding of antigen processing, including structural biology, computer simulation, and machine learning techniques, with a particular focus on the MHC-I pathway.
Text
Manuscript_AntigenProcessing
- Accepted Manuscript
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e-pub ahead of print date: 16 January 2023
Published date: 27 February 2023
Additional Information:
© 2023 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.
Identifiers
Local EPrints ID: 482208
URI: http://eprints.soton.ac.uk/id/eprint/482208
ISSN: 0300-5127
PURE UUID: 66861dd6-9ddc-45d8-83da-c60652160377
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Date deposited: 21 Sep 2023 16:38
Last modified: 17 Mar 2024 02:52
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Author:
Steven Carl Turner
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