Investigating the role of the Non-Classical MHCII Molecule HLA-DO in Regulating Exogenous Antigen Presentation in B Cells
Authors
Ramesh, Karthik M.Faculty Advisor
Lawrence J. SternAcademic Program
Immunology and MicrobiologyDocument Type
Doctoral DissertationPublication Date
2024-08-21Keywords
Antigen PresentationMass Spectrometry
Influenza
MHCII
HLA-DO
B cell
Hemagglutinin
DDA
DIA
HLA-DM
HLA-DR1
Metadata
Show full item recordAbstract
In B cells, exogenous antigens internalized through the BCR are processed in the endocytic pathway and loaded onto class II MHC protein (MHCII) for presentation to CD4+ T cells. The non-classical MHCII molecule HLA-DM (DM) catalyzes peptide exchange, selecting peptides with high affinity to MHCII, while HLA-DO (DO) binds to and inhibits DM in a pH-dependent manner. DO expression increases the diversity of the MHCII self-peptide repertoire and, through its inhibition of DM, allows for the presentation of low-affinity self-peptides, but the effect on exogenous antigens is unclear. We wanted to understand if DO expression in B cells affects exogenous antigen presentation and determine whether DO promotes peptide loading in particular intracellular compartments. We used an immunopeptidome workflow to identify naturally processed endogenous, exogenous, and virus-derived peptides in DO-sufficient and DO-deficient B cells infected with influenza virus, and we used a T cell assay to track the presentation of a single DR1-bound epitope derived from influenza HA with altered pH of fusion. We found that DO increases the diversity of peptides presented in infected cells favoring presentation of DM-susceptible viral epitopes. Tracking a single epitope, we show that the absence of DO favors exogenous peptide presentation, driving loading to later endocytic compartments. Our study expands on the role of DO in modulating the MHCII peptidome via a DM-dependent peptide-selection mechanism that regulates presentation of exogenous antigens and helps to illuminate its role in humoral responses to infections.DOI
10.13028/j4fd-ww43Permanent Link to this Item
http://hdl.handle.net/20.500.14038/53829Rights
Copyright © 2024 Karthik M. RameshDistribution License
All Rights Reservedae974a485f413a2113503eed53cd6c53
10.13028/j4fd-ww43