T cell epitope mapping of the Smith antigen reveals that highly conserved Smith antigen motifs are the dominant target of T cell immunity in systemic lupus erythematosus

B cell and T cell immunity to the Smith Ag (Sm) is a characteristic feature of systemic lupus erythematosus (SLE). We have shown that T cell immunity against Sm can be detected in SLE patients, and that T and B cell immunity against Sm are linked in vivo. TCR usage by Sm-reactive T cells is highly restricted and characteristic of an Ag-driven immune response. Sm is a well-characterized complex Ag consisting of proteins B1, B2, D1, D2, D3, E, F, and G. A unique feature of all Sm proteins is the presence of homologous motifs, Sm motif 1 and Sm motif 2. We used limiting dilution cloning and synthetic peptide Ags to characterize the human T cell immune response against Sm in seven SLE patients. We sought to determine the precise antigenic peptides recognized, the common features of antigenic structure recognized, and the evolution of the T cell response against Sm. We found there was a highly restricted set of Sm self-peptides recognized by T cells, with three epitopes on Sm-B and two epitopes on Sm-D. We found that T cell immunity against Sm-B and Sm-D was encoded within the highly conserved Sm motif 1 and Sm motif 2, and that immunity against these epitopes appeared stable. The present study supports the concept that T cell immunity to Sm is an Ag-driven immune response directed against a highly restricted set of self-peptides, encoded within Sm motif 1 and Sm motif 2, that is shared among all Sm proteins.

Analysis of T cell receptors specific for U1-70kD small nuclear ribonucleoprotein autoantigen: the alpha chain complementarity determining region three is highly conserved among connective tissue disease patients

The U1-70kD autoantigen is a major target of B cell responses in patients with connective tissue diseases (CTD). T cell responses are important in the pathogenesis of CTD, however little is known about autoantigen-specific T cells in these diseases. We have recently proven that U1-70kD-reactive human T cells exist. To further characterize these autoreactive T cells, U1-70kD-reactive T cell clones have been generated from patients with CTD using either a recombinant fusion protein or synthetic peptides spanning the U1-70kD polypeptide. T cell receptors (TCR) isolated from the U1-70kD-reactive T cell clones were sequenced and the third complementarity-determining region (CDR3) compared to determine if a common motif was present. mAb blocking of antigen-induced proliferation was done to determine the HLA restriction element used in recognition of the U1-70kD autoantigen by T cells. The results presented here indicate that TCRAV CDR3 usage is highly restricted among U1-70kD autoantigen-specific human T cells clones derived from CTD patients with distinctive structural features. Furthermore, the recognition of the U1-70kD autoantigen occurs in the context of HLA-DR.