Abstract

The mouse MHC T region encoded class I-b molecules, TL and Qa- 1, are the focus of this new application. Functions for class I-b proteins have not been fully elucidated, but growing evidence indicates a role in peptide binding and antigen presentation similar to that of the class I-a molecules. In addition, these proteins have distinctive patterns of expression and structural features which support the concept that they play specialized and important roles in immune regulation. We propose to define the peptides bound to and antigen presentation functions of Qa-1 and TL and to elucidate the molecular mechanisms that regulate their expression.
Our first Aim i s to isolate and sequence peptides released from the Qa-1 and TL molecules and to examine binding of these peptides to soluble forms of these molecules using surface plasmon resonance. These studies will answer questions regarding the types of peptides these proteins bind, whether there are specialized requirements for binding, and whether TL expressed independently of TAP1,2 can bind peptides or is stable in the absence of peptide.
The second AIM will extend the above studies and define peptide presentation functions of class 1-b molecules using CTLs. Roles for Qa-2 in presentation of a RAG-1 peptide, Qa-1 in presentation of TCR Vbeta peptides and the H-2Ld signal peptide (Ld3-11), and TL in TAP-independent versus dependent peptide presentation will be determined.
Aim three will define the novel protein Qsm that heterodimerizes with the Qa-1 molecule and determine if it is encoded by the H-2K2b gene or by a previously undescribed, perhaps class I-like gene. We will address mechanisms that govern Qa-1/Ld heterodimerization; these include roles of the domains of Ld, bound peptides, oligosaccharides, and Beta2m.
Our fourth Aim will answer questions relating to antigen presentation function and heavy chain processing of Qa-1. We will define the mechanism of intracellular instability of Qa-1 by examining the involvement of 1)specific heavy chain domains; 2) an unusual and potentially uncoupled cysteine residue at position 114 in the heavy chain; 3) Beta2m; and 4)peptide supply/availability. We are confident these proposed investigations will answer fundamental questions relating to immune function of class 1-b molecules and elucidate molecule mechanisms that control their unusual expression. Insight into structure-function relationships and the biological roles of class I molecules, in general, will emerge from these studies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI017897-17
Application #
2886393
Study Section
Allergy and Immunology Study Section (ALY)
Program Officer
Prasad, Shiv A
Project Start
1981-04-01
Project End
2002-03-31
Budget Start
1999-04-01
Budget End
2000-03-31
Support Year
17
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
Baylor College of Medicine
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
074615394
City
Houston
State
TX
Country
United States
Zip Code
77030

  Publications

Doyle, C Kuyler; Cook, Richard G; Rich, Robert R et al. (2003) Cotton rat Sihi-M3 is a minimally oligomorphic Mhc I-b molecule that binds the chemotactic peptide fMLF under stringent conditions. Evidence that positive selection drives inter-species diversity of residues interacting with the termini of short peptides. Immunogenetics 55:389-94
Davis, Beckley K; Cook, Richard G; Rich, Robert R et al. (2002) Hyperconservation of the putative antigen recognition site of the MHC class I-b molecule TL in the subfamily Murinae: evidence that thymus leukemia antigen is an ancient mammalian gene. J Immunol 169:6890-9
Wolf, P R; Cook, R G (1995) The class I-b molecule Qa-1 forms heterodimers with H-2Ld and a novel 50-kD glycoprotein encoded centromeric to I-E beta. J Exp Med 181:657-68
Wang, I M; Mehta, V; Cook, R G (1993) Regulation of TL antigen expression. Analysis of the T18d promoter region and responses to IFN-gamma. J Immunol 151:2646-57
Cook, R G; Leone, B; Leone, J W et al. (1992) Characterization of T cell proliferative responses induced by anti-Qa-2 monoclonal antibodies. Cell Immunol 144:367-81
Widacki, S M; Mehta, V; Flaherty, L et al. (1990) Biochemical differences in Qa-2 antigens expressed by Qa-2+,6+ and Qa-2+,6- strains. Evidence for differential expression of the Q7 and Q9 genes. Mol Immunol 27:559-70
Dolby, N; Mehta, V; Cook, R G (1990) Regulation of expression of TL genes of the mouse Mhc. Immunogenetics 32:380-8
Wolf, P R; Cook, R G (1990) The TL region gene 37 encodes a Qa-1 antigen. J Exp Med 172:1795-804
Pollack, M S; Hayes, A; Mooney, S et al. (1988) The detection of conventional class I and class II I-E homologue major histocompatibility complex molecules on feline cells. Vet Immunol Immunopathol 19:79-91
Davis, J E; Cook, R G; Van, M et al. (1988) Polymorphic Bgl II restriction sites of DR alpha demarcate a novel HLA-DR1 antigen. Immunogenetics 28:171-81

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