With the aim to characterize the structural dynamics of antigen-bound MHC-I at time scales ranging from picosecond to microseconds we have carried out extended all-atom molecular dynamics simulations of the mouse MHC-I alleles H-2Db and H-2Kb, both in their peptide-free and peptide-loaded states. These data were combined with a wealth of information obtained from NMR experiments employing the H-2Db complex with a Sendai virus nucleoprotein epitope (FAPGNYPAL) to provide the first full characterization of both structure and dynamics of a peptide bound MHC-I system in solution. Our results reveal for the first time that the antigenic peptide samples many more conformational states in solution than those observed by X-ray crystallography, including states with partially dissociated N- and C-terminal regions. This finding has major implications in the selector function of the MHC-I, as well as the interaction of peptide-loaded MHC-I with the chaperones tapasin and tapasin-related (TAPBPR) protein and their recognition by the T-cell receptors on the cell surface.
To elucidate the effect of the N-terminus binding region at the antigen binding groove we employed single-chain trimers of wild type H-2Kb complex with an ovalbumin epitope (SIINFEKL) and three mutants of H-2Kb. Cellular experiments indicated that the three mutations result in greater susceptibility to over-trimming by the ER aminopeptidase ERAP1. Crystallographic analysis of the MHC-I single-chain trimers did not reveal major conformational changes between the wild type and mutant forms. However, free energy calculations revealed that the N-terminus of the bound epitope can partially dissociate with lower energy barriers in the three mutants with respect to the wild type allele. This work allowed us to establish a proof of principle that the ability of ERAP1 to trim MHC I-bound peptide was dependent on an exposed N-terminus.
Within the last part of our work we investigated the dynamics of tapasin and TAPBPR-bound models of MHC-I with partially dissociated antigenic peptides. Free energy calculations for a series of complexes suggested sequence-specific differences between the two chaperone proteins and a potential link to their analogous but distinct biological role. These results can be exploited in the development of optimized prediction methods of immunodominant epitopes for vaccine design.
The results obtained have been disseminated to the scientific community through:
1. Mini-review, open-access article “The Role of Conformational Dynamics in Antigen Trimming by Intracellular Aminopeptidases” published within the research topic “The Importance of Protein Dynamics for function and its relevance to Antigen Processing and Presentation” at Frontiers in Immunology,
http://dx.doi.org/10.3389/fimmu.2017.00946(s’ouvre dans une nouvelle fenêtre)2. Full article (open access) “The partial dissociation of MHC class I–bound peptides exposes their N terminus to trimming by endoplasmic reticulum aminopeptidase 1” published at Journal of Biological Chemistry,
http://dx.doi.org/10.1074/jbc.RA117.000313(s’ouvre dans une nouvelle fenêtre)3. An oral presentation at the CompBioMed All-Hands-Meeting 2017 (11-12 April, Barcelona, Spain).
4. A poster presentation at the EMBO workshop on Antigen processing and presentation 2017 (28–31 May, Salamanca, Spain).
5. An oral presentation at the South West Structural Biology Consortium meeting 2017 (3-4 July, Cardiff, UK).
6. An oral presentation at the 68th Congress of the Hellenic Society of Biochemistry and Molecular Biology 2017 (10-12 November, Athens, Greece).
7. A poster presentation at the British Biophysical Society biennial meeting 2018 (11-13 July, Southampton, UK).
8. A poster presentation at the 28th International Conference on Magnetic Resonance in Biological Systems 2018 (19-24 August, Dublin, UK).
Main dissemination actions that target the broad public include participation of the fellow at:
1. Science and Engineering Day, University of Southampton 2017 (18th May)
2. European Researchers’ Night, the “Hellenic Cosmos” Cultural Centre, Athens 2017 (29th September)
3. 1st Summer Camp of the Institute of Biosciences & Applications, NCSR “Demokritos”, Athens 2018 (25th June - 6th July)