Abstract

The goals of this project are to define the biochemical and cellular events in the processing of protein antigens by APC and the selection of peptides by the class II MHC molecules. The applicant will continue examining peptide selection from model protein antigens like lysozyme (HEL), ribonuclease and hemoglobin. He will investigate where the protein antigen goes in the APC, how it is initially fragmented, how the MHC binds the early catabolites, whether the early catabolites bound to MHC are subsequently trimmed, and how the peptide MHC complex is handled by the APC. All these events translate in the selection of dominant peptide sequences presented at the plasma membrane of APC. Initial studies on the biochemistry of peptide from HEL strongly justify a biochemical approach. For example, the dominance by a single epitope is striking and, moreover, the dominant epitope is presented as nested peptides with extensions not previously predicted by immunological assays. Such nested peptides have important chemical and biological consequences.
Aim 1 will continue to sample I-Ak and I-Ek molecules from large scale cultures of APC with antigens in a biochemical effort to define the distribution of the selected peptides. Issues that are relevant are the amounts of protein, the kind of APC, the time of examination, and the presence of dominant and sub-dominant peptides.
This aim i s based on technologies that are all in place and include large scale growth of APC, MHC isolation, HPLC fractionation of eluates, sequencing of peptides and mass spectrometry examination.
The second aim i s to engineer mutations in the HEL biochemical basis for the peptide selection. The HEL molecule will be presented as a fusion protein linked to either part of the Ld or the Cathepsin D molecule. The applicant will investigate whether changes in the core residues of the dominant epitopes influence whether minor epitopes become apparent, which may explain the biochemical basis of dominant and sub-dominant epitopes. It also will be investigated whether changes in the residues that flank the core peptide are important in peptide selection, addressing the issues of enzyme specificity and aminopeptidases. Finally, by using a combination of cellular approaches and subcellular fractionation, the cellular dynamics and fate of different peptide-MHC complexes will be examined.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI022033-13
Application #
2390285
Study Section
Allergy and Immunology Study Section (ALY)
Project Start
1985-04-01
Project End
2000-03-31
Budget Start
1997-04-01
Budget End
1998-03-31
Support Year
13
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
Washington University
Department
Pathology
Type
Schools of Medicine
DUNS #
062761671
City
Saint Louis
State
MO
Country
United States
Zip Code
63130

  Publications

Ireland, Jamie M; Unanue, Emil R (2012) Processing of proteins in autophagy vesicles of antigen-presenting cells generates citrullinated peptides recognized by the immune system. Autophagy 8:429-30
Atibalentja, Danielle F; Murphy, Kenneth M; Unanue, Emil R (2011) Functional redundancy between thymic CD8?+ and Sirp?+ conventional dendritic cells in presentation of blood-derived lysozyme by MHC class II proteins. J Immunol 186:1421-31
Strong, Beverly S I; Unanue, Emil R (2011) Presentation of type B peptide-MHC complexes from hen egg white lysozyme by TLR ligands and type I IFNs independent of H2-DM regulation. J Immunol 187:2193-201
Ireland, Jamie M; Unanue, Emil R (2011) Autophagy in antigen-presenting cells results in presentation of citrullinated peptides to CD4 T cells. J Exp Med 208:2625-32
Yang, Chiao-Wen; Strong, Beverly S I; Miller, Mark J et al. (2010) Neutrophils influence the level of antigen presentation during the immune response to protein antigens in adjuvants. J Immunol 185:2927-34
Belizaire, Roger; Unanue, Emil R (2009) Targeting proteins to distinct subcellular compartments reveals unique requirements for MHC class I and II presentation. Proc Natl Acad Sci U S A 106:17463-8
Atibalentja, Danielle F; Byersdorfer, Craig A; Unanue, Emil R (2009) Thymus-blood protein interactions are highly effective in negative selection and regulatory T cell induction. J Immunol 183:7909-18
Lovitch, Scott B; Petzold, Shirley J; Unanue, Emil R (2003) Cutting edge: H-2DM is responsible for the large differences in presentation among peptides selected by I-Ak during antigen processing. J Immunol 171:2183-6
Van Parijs, L; Peterson, D A; Abbas, A K (1998) The Fas/Fas ligand pathway and Bcl-2 regulate T cell responses to model self and foreign antigens. Immunity 8:265-74
Williams, I R; Unanue, E R (1990) Costimulatory requirements of murine Th1 clones. The role of accessory cell-derived signals in responses to anti-CD3 antibody. J Immunol 145:85-93

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