The main goal of this project is to delineate the mechanism(s) of antigen- specific tolerance in collagen-induced arthritis (CIA) in mice. CIA is a widely accepted animal model of autoimmune arthritis sharing several important immunological, pathological and clinical features with rheumatoid arthritis. During the present funding period, it has been shown that predominant tolerogenic epitopes are located in a CNBr derived fragment of type II collagen (CB11). One of these has been identified as the peptide sequence of residues 260-270 of the a1(II) chain (CII 260-270). By the use of synthetic peptides representing CII 260-270 but containing site-directed substitutions, several critical residues within this epitope have been identified. In the present application, we propose to extend our observations to: 1) complete the characterization of CII 260-270 by examination of additional synthetic peptides containing amino acid substitutions at critical residues and to determine if additional T cell epitope(s) identified in Project #1 are tolerogenic; 2) develop cloned T cell lines reactive with CII 260-270 and capable of suppressing arthritis; 3) determine the T cell receptor (TcR) repertoire utilized by cells capable of inducing suppression; and 4) determine the mechanism of tolerance using transgenic mice bearing TcR which react with CII 260-270. Complete characterization of this epitope will allow us to design peptide agents which may disrupt the interactions of trimolecular complex of I-A molecule/peptide/TcR. Moreover, a definitive determination of TcR utilization in this system by the use of specific monoclonal antibodies against TcR Vb products, polymerase chain reaction and transgenic technology will enable us to design specific anti T cell therapy. The foundation of this project has carefully been laid during the past several years. We are now at the threshold of complete delineation of the structural determinants of CII that have the capacity to suppress arthritis, and elucidation of the mechanisms of tolerance to autoantigens in this important model of autoimmune arthritis. We believe these data will have important implications for therapy of autoimmune arthritis.

Project Start
1996-09-01
Project End
1999-08-31
Budget Start
1995-10-01
Budget End
1996-09-30
Support Year
10
Fiscal Year
1996
Total Cost
Indirect Cost
Name
University of Tennessee Health Science Center
Department
Type
DUNS #
941884009
City
Memphis
State
TN
Country
United States
Zip Code
38163
Qian, Zhaohui; Latham, Kary A; Whittington, Karen B et al. (2013) Engineered regulatory T cells coexpressing MHC class II:peptide complexes are efficient inhibitors of autoimmune T cell function and prevent the development of autoimmune arthritis. J Immunol 190:5382-91
Qian, Zhaohui; Latham, Kary A; Whittington, Karen B et al. (2010) An autoantigen-specific, highly restricted T cell repertoire infiltrates the arthritic joints of mice in an HLA-DR1 humanized mouse model of autoimmune arthritis. J Immunol 185:110-8
Tang, Bo; Zhou, Jing; Park, Jeoung-Eun et al. (2009) T cell receptor signaling induced by an analog peptide of type II collagen requires activation of Syk. Clin Immunol 133:145-53
Myers, Linda K; Tang, Bo; Rosioniec, Edward F et al. (2007) An altered peptide ligand of type II collagen suppresses autoimmune arthritis. Crit Rev Immunol 27:345-56
Ye, X J; Tang, B; Ma, Z et al. (2007) The effects of interleukin-18 on rat articular chondrocytes: a study of mRNA expression and protein synthesis of proinflammatory substances. Clin Exp Immunol 149:553-60
Rosloniec, Edward F; Brandstetter, Tilmann; Leyer, Sigmar et al. (2006) Second-generation peptidomimetic inhibitors of antigen presentation effectively treat autoimmune diseases in HLA-DR-transgenic mouse models. J Autoimmun 27:182-95
Ahn, Jae I; Erdin, Robert A; Smith, Richard et al. (2006) Chondrocyte injection in distraction epiphysiolysis (rabbit model). J Orthop Res 24:355-65
Rosloniec, Edward F; Ivey 3rd, Robert A; Whittington, Karen B et al. (2006) Crystallographic structure of a rheumatoid arthritis MHC susceptibility allele, HLA-DR1 (DRB1*0101), complexed with the immunodominant determinant of human type II collagen. J Immunol 177:3884-92
Sakurai, Yoshihiko; Tang, Bo; Rosloniec, Edward F et al. (2006) Molecular characterization of an arthritogenic collagen peptide interacting with I-Ar. Immunology 117:136-42
Sakurai, Yoshihiko; Brand, David D; Tang, Bo et al. (2006) Analog peptides of type II collagen can suppress arthritis in HLA-DR4 (DRB1*0401) transgenic mice. Arthritis Res Ther 8:R150

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