Add to ORKGAbs can tune the responses of Ag-specific T cells by influencing the nature of the epitope repertoire displayed by APCs. We explored the interaction between human self-reactive T cells and human monoclonal autoantibodies from combinatorial Ig-gene libraries derived from autoimmune thyroiditis patients and specific for the main autoantigen thyroid peroxidase (TPO). All human mAbs extensively influenced the T cell epitope repertoire recognized by different TPO-specific T cell clones. The action of the human mAbs was complex, because sometimes the same Ab suppressed or enhanced the epitopes recognized by the 10 different TPO-specific T cell clones. The human mAbs could modulate the epitope repertoire when TPO was added exogenously and when exp...
T cell receptor (TCR) recognition is intrinsically polyspecific. In the field of autoimmunity, recog...
The identification of autoantibody epitopes is important to the understanding of autoimmune thyroid ...
We all possess T cells with autoaggressive potential. Knowledge of their regulation is crucial for e...
Recognition of self-antigens by T lymphocytes is a central event in autoimmunity. Understanding of t...
Thyroid autoimmune disorders comprise more than 30% of all organ-specific autoimmune diseases and ar...
Graves disease is a common form of human autoimmune thyroiditis. It shares many pathological feature...
Studies spanning several decades have revealed how the complex forces of antigen processing distingu...
Activation of self-reactive T cells is a major driver to autoimmunity and is suppressed by mechanism...
Activation of self-reactive T cells is a major driver to autoimmunity and is suppressed by mechanism...
Immune recognition of self-proteins features prominently in the early pathogenesis of autoimmune rhe...
Autoantigen-specific TCR transgenic mice allow us to assess the role of T cells in autoimmunity. We ...
Deletion of potentially self-reactive T-cell clones during intrathymic development provides an impor...
Deletion of potentially self-reactive T-cell clones during intrathymic development provides an impor...
The subclass distribution of thyroglobulin autoantibodies (TgAb) is debated, whereas their epitope p...
A pathogenic thyroxine containing epitope involved in the induction of experimental autoimmune thyro...
T cell receptor (TCR) recognition is intrinsically polyspecific. In the field of autoimmunity, recog...
The identification of autoantibody epitopes is important to the understanding of autoimmune thyroid ...
We all possess T cells with autoaggressive potential. Knowledge of their regulation is crucial for e...
Recognition of self-antigens by T lymphocytes is a central event in autoimmunity. Understanding of t...
Thyroid autoimmune disorders comprise more than 30% of all organ-specific autoimmune diseases and ar...
Graves disease is a common form of human autoimmune thyroiditis. It shares many pathological feature...
Studies spanning several decades have revealed how the complex forces of antigen processing distingu...
Activation of self-reactive T cells is a major driver to autoimmunity and is suppressed by mechanism...
Activation of self-reactive T cells is a major driver to autoimmunity and is suppressed by mechanism...
Immune recognition of self-proteins features prominently in the early pathogenesis of autoimmune rhe...
Autoantigen-specific TCR transgenic mice allow us to assess the role of T cells in autoimmunity. We ...
Deletion of potentially self-reactive T-cell clones during intrathymic development provides an impor...
Deletion of potentially self-reactive T-cell clones during intrathymic development provides an impor...
The subclass distribution of thyroglobulin autoantibodies (TgAb) is debated, whereas their epitope p...
A pathogenic thyroxine containing epitope involved in the induction of experimental autoimmune thyro...
T cell receptor (TCR) recognition is intrinsically polyspecific. In the field of autoimmunity, recog...
The identification of autoantibody epitopes is important to the understanding of autoimmune thyroid ...
We all possess T cells with autoaggressive potential. Knowledge of their regulation is crucial for e...