Studies in Antigen Presentation and Antigen Recognition at Different Interfaces of the Adaptive Immune System
Authors
Negroni, Maria P.Faculty Advisor
Lawrence J. SternAcademic Program
Biochemistry and Molecular PharmacologyUMass Chan Affiliations
PathologyDocument Type
Doctoral DissertationPublication Date
2018-07-03Keywords
AntigenHLA-DR
glycation
photocleavable peptide
peptide
binding kinetics
gamma delta T cells
TCR
ligand
Listeria
Biochemistry, Biophysics, and Structural Biology
Immunology and Infectious Disease
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Antigen presentation and recognition are key processes of the immune system necessary to initiate the adaptive immune response. Longstanding goals of these fields have been to understand the molecular mechanism of MHC II-peptide binding, the way in which dysregulation of this process can lead to disease, and determining how γδTCRs recognize their ligands. To examine some of these outstanding questions, I designed photocleavable peptides that could bind HLA-DR1 and could be used to facilitate peptide exchange. I also performed studies to understand whether peptide exchange on HLA-DR1 can be affected by glycation modifications, which occur in hyperglycemic conditions such as diabetes. I observed that while glycation modifications on HLA-DR1 did not affect peptide exchange, these modifications decreased the catalytic effect of HLA-DM on this reaction, which could affect antigen presentation in diabetic patients. For studies on antigen recognition by γδTCRs, I focused on γδNKT cells, a subset of γδT cells known to play a role during Listeria infection. I used four different variants of the γδNKT TCR to study the restrictions on Vγ junctional region usage by this TCR for ligand recognition. I found that all the TCR variants I examined could recognize cells infected with Listeria, indicating that this TCR is not restricted by γ-chain usage in order to recognize ligand. My research generated reagents that could serve in future studies of HLA-DR1 peptide binding and contributed to understanding the effect of hyperglycemic conditions on antigen presentation, as well as provided greater understanding of γδTCR restriction for ligand recognition.DOI
10.13028/qzt0-1d74Permanent Link to this Item
http://hdl.handle.net/20.500.14038/32385Rights
Licensed under a Creative Commons licenseDistribution License
http://creativecommons.org/licenses/by/4.0/ae974a485f413a2113503eed53cd6c53
10.13028/qzt0-1d74
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