Abstract

The recognition of antigen by T cells is a seminal event in the induction of a specific immune response. The TCR recognizes a peptide bound to an MHC molecule (p/MHC) on the surface of an antigen presenting cell. The TCR is a highly intricate receptor, but has a low affinity for the p/MHC ligand. The basis for the exquisite TCR specificity, despite the low affinity, is still not known. A major advance in our understanding of how T cells recognize antigen has been the direct demonstration of the formation of an immunological synapse. The immunological synapse is a supramolecular structure at the interface between the T cell and a single APC that is stable for many hours. The immunological synapse provides the molecular machinery for integration of p/MHC quality and quantity. These studies have provided a model explaining how a TCR can distinguish between closely related ligands, but many questions remain. In this proposal, our overall goal is to understand how mature T cells and thymocytes can respond to small kinetic and structural changes in the p/MHC ligands. Our laboratory has developed and utilized the Hb/I-Ek antigen system. We have generated and characterized a wide range of T cells, ligands, and transgenic mice for two T cells, 3.L2 and 2.102. Through an integrated investigation of the 3.L2 and 2.102 T cells and ligands we propose to explore several key issues including: 1) how do the TCR binding properties to a continuum of different strength ligands relate to their structure and biological effects, 2) how does the recognition by a single TCR of syngeneic and allogeneic ligands compare, 3) how do immunological synapses in thymocytes compare to those of mature T cells, and 4) what is the role of CD4 in immunological synapse formation and TCR:p/MHC interactions? These proposed studies will provide key molecular details of the interaction between a TCR and the p/MHC ligand. These studies could lead to the development of novel pharmaceuticals which could control unwanted immune responses, such as an autoimmune response.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37AI024157-19
Application #
6983389
Study Section
Immunobiology Study Section (IMB)
Program Officer
Rothermel, Annette L
Project Start
1987-04-01
Project End
2006-11-30
Budget Start
2005-12-01
Budget End
2006-11-30
Support Year
19
Fiscal Year
2006
Total Cost
$338,358
Indirect Cost

  Institution

Name
Washington University
Department
Pathology
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130

  Publications

Milam, Ashley A Viehmann; Bartleson, Juliet M; Donermeyer, David L et al. (2018) Tuning T Cell Signaling Sensitivity Alters the Behavior of CD4+ T Cells during an Immune Response. J Immunol 200:3429-3437
Hong, Jinsung; Persaud, Stephen P; Horvath, Stephen et al. (2015) Force-Regulated In Situ TCR-Peptide-Bound MHC Class II Kinetics Determine Functions of CD4+ T Cells. J Immunol 195:3557-64
Rodriguez, Stephanie N; Jiang, Meizi; Bujo, Hideaki et al. (2015) Self-pMHCII complexes are variably expressed in the thymus and periphery independent of mRNA expression but dependent on the activation state of the APCs. Mol Immunol 63:428-36
Klein, Ludger; Kyewski, Bruno; Allen, Paul M et al. (2014) Positive and negative selection of the T cell repertoire: what thymocytes see (and don't see). Nat Rev Immunol 14:377-91
Persaud, Stephen P; Parker, Chelsea R; Lo, Wan-Lin et al. (2014) Intrinsic CD4+ T cell sensitivity and response to a pathogen are set and sustained by avidity for thymic and peripheral complexes of self peptide and MHC. Nat Immunol 15:266-74
Lo, Wan-Lin; Solomon, Benjamin D; Donermeyer, David L et al. (2014) T cell immunodominance is dictated by the positively selecting self-peptide. Elife 3:e01457
Lynch, Jennifer N; Donermeyer, David L; Weber, K Scott et al. (2013) Subtle changes in TCR? CDR1 profoundly increase the sensitivity of CD4 T cells. Mol Immunol 53:283-94
Lo, Wan-Lin; Donermeyer, David L; Allen, Paul M (2012) A voltage-gated sodium channel is essential for the positive selection of CD4(+) T cells. Nat Immunol 13:880-7
Hickman-Brecks, Cynthia L; Racz, Jennifer L; Meyer, Debra M et al. (2011) Th17 cells can provide B cell help in autoantibody induced arthritis. J Autoimmun 36:65-75
Weber, K Scott; Hildner, Kai; Murphy, Kenneth M et al. (2010) Trpm4 differentially regulates Th1 and Th2 function by altering calcium signaling and NFAT localization. J Immunol 185:2836-46

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