SummaryLEW (RT1 l) rats were immunized with peptides corresponding to the c~ helical region of the oll domain (peptide 1), the fl sheet of the oe2 domain (peptide 2), and the a helical region of the c~2 domain (peptide 3) of the RT1-A avl classical class I molecule of the DA (RT1 'vl) strain. The immunizations were without carriers, and the objective was to prime to indirect allorecognition without influencing direct recognition of the RT1-A avl 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-A a~l class I molecules. The immunizations 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 aUograft, the peptide-immunized LEW rats showed markedly accelerated kinetics of antibody production to the intact RT1-A ~1 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.
The monoclonal antibody (F 10-44-2) described in this report recognizes an antigen which by quantitative absorption analysis is found predominantly on spleen, lymph node, bone marrow, thymus, granulocytes and brain, the amount of antigen on these tissues being approximately the same within a factor of 2 or 3. Analysis with the fluorescence-activated cell sorter showed that 29% of thymus cells, 61% of bone marrow cells, 95% of blood mononuclear cells, 98% of lymph node lymphocytes and 100% of granulocytes carried the antigen. With blood mononuclear cells and lymph node lymphocytes, there were two distinct peaks, with one peak labeling very weakly. Double labeling experiments established that the weakly labeled peak contained the B lymphocytes. Studies on frozen sections of thymus established that positive thymocytes were found only in the medulla indicating that the antigen appears late in T lymphocyte maturation. The lymphatic nodules (B lymphocyte areas) of spleen and lymph node appeared virtually negative on frozen sections showing that there was too little antigen on the B lymphocyte surface for confident detection by fluorescence microscopy. Sodium dodecyl sulfate polyacrylamide gel eletrophoresis of NaB3H4-labeled blood mononuclear cells established that the antigen was a major glycoprotein of the leukocyte membrane and that its mol. wt. was 105000. This antigen shows a striking similarity in biochemistry and tissue distribution to the W 3/13 antigen of the rat and is likely to be the human homologue of this antigen.
The monoclonal antibody (F 10-89-4) described in this study recognizes an antigen which by quantitative absorption analysis is absent from human brain, kidney, liver, heart, erythrocytes, platelets and normal serum, but is present on spleen, lymph node, chronic lymphatic leukemia cells, bone marrow, thymus and granulocytes at a ratio of 1:1:0.8:0.3:0.1, respectively. Analysis with the fluorescence-activated cell sorter showed that 100% of thymocytes, lymph node lymphocytes, blood mononuclear cells and granulocytes carry the antigen, while 83% of bone marrow cells are positive. There was marked heterogeneity in the amount of labeling of thymocytes, with 3 major peaks. There was also heterogeneity of labeling of blood mononuclear cells and lymph node lymphocytes, with a weakly staining hump containing approximately 20% of the cells in the case of lymph node lymphocytes. Double labeling experiments demonstrated that the weakly staining cells of blood and lymph node were B lymphocytes, while frozen sections of thymus showed that the antigen was expressed most weakly in subcapsular cortical thymocytes, and most strongly on medullary thymocytes. Biochemical studies established that the antigen bound to lentil lectin columns, and sodium dodecyl sulfate polyacrylamide gel electrophoresis studies using NaB3H4-labeled blood mononuclear cells established that the antigen was a major glycoprotein of lymphocytes, and that its molecular weight was in the region of 190000 to 215000.
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