How do we account for the immune system's ability to produce antibodies in response to new antigens? It has been 50 years since F. Macfarlane Burnet published his answer to this question: the clonal-selection theory of antibody diversity. The idea that specificity for diverse antigens exists before these antigens are encountered was a radical notion at the time, but one that became widely accepted. In this article, Nature Reviews Immunology asks six key scientists for their thoughts and opinions on the clonal-selection theory, from its first proposal to their views of it today.
1. Co-processing of alloantigens suggests that epitope-loaded MHC class I molecules may pass from tissue cells to dendritic cells. 2. Antigen-presenting cells in the thymus need some special trick in order to load their MHC class II molecules with epitopes from "intermediate concentration" self-proteins in order to induce self-tolerance in developing cells. 3. Cell-cell interactions may transmit signals simply by rearranging surface glycoproteins and thus locally perturbing a phosphorylation equilibrium. 4. The CD45 and STB1 phenotype of most cells in the thymus may be characteristic of a doomed cell.
Mechanisms of self-tolerance of 4-hydroxyphenylpyruvate dioxygenase (HPPD) are explored. It is well established that negative selection based on TCR affinity occurs in the thymus. We have investigated the frequency with which self-reactive T cell hybridomas can be obtained in relation to self-tolerance. Mice immunized with the self-form of HPPD gave rise to T cell hybridomas that were able to recognize self-protein and a synthetic peptide representing the T cell epitope, at higher Ag concentration than was necessary for recognition of allo-protein. The efficiency of negative selection was then reduced by treating neonatal mice with anti-HPPD antiserum. This reduced T cell tolerance of the self-protein, as judged by in vitro proliferation, and enabled self-reactive T cell hybridomas to be generated at a higher frequency. However, the Ag concentration requirements of these hybridomas for the self-protein and the self-peptide remained unaltered. The possibility that these findings reflect an auxiliary mechanism of self-tolerance based on frequencies of self-reactive T cells is discussed.
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