Affiliation:
1. Division of Cell and Molecular Biology, Institute of Child Health, London, United Kingdom.
Abstract
LEW (RT1l) rats were immunized with peptides corresponding to the alpha helical region of the alpha 1 domain (peptide 1), the beta sheet of the alpha 2 domain (peptide 2), and the alpha helical region of the alpha 2 domain (peptide 3) of the RT1-Aav1 classical class I molecule of the DA (RT1av1) strain. The immunizations were without carriers, and the objective was to prime to indirect allorecognition without influencing direct recognition of the RT1-Aav1 molecule. The LEW rats mounted strong primary and secondary antibody responses to peptides 1 and 3, but only weak secondary responses to peptide 2. None of the antipeptide antibodies crossreacted with intact RT1-Aav1 class I molecules. The immunization also resulted in LEW antigen-presenting cell-dependent, CD4+ T cell proliferative responses, which were very strong against peptide 1 and weakest against peptide 2. LEW rats immunized with peptides 1 or 3, but most effectively with both peptides 1 and 3 together, showed accelerated rejection of DA skin allografts. This effect was not observed in LEW rats immunized with peptide 2. In response to the DA skin allograft, the peptide-immunized LEW rats showed markedly accelerated kinetics of antibody production to the intact RT1-Aav1 molecule. These data demonstrate that indirect allorecognition can play an important role in allograft rejection and have important implications for understanding allograft rejection and its regulation.
Publisher
Rockefeller University Press
Subject
Immunology,Immunology and Allergy
Cited by
198 articles.
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