Different types of allospecific CTL clones identified by their ability to recognize peptide loading‐defective target cells

F Aosai, C Öhlen, HG Ljunggren… - European journal of …, 1991 - Wiley Online Library
F Aosai, C Öhlen, HG Ljunggren, P Höglund, L Franksson, H Ploegh, A Townsend, K Kärre…
European journal of immunology, 1991Wiley Online Library
Allospecific immune responses against the MHC of another individual are remarkably
strong, due to a high number of responding T cell clones. Although it has been
demonstrated that some allospecific cytotoxic T lymphocytes (CTL) recognize peptides
presented by allogeneic MHC class I molecules, it has remained unclear whether MHC
molecules can be recognized directly. We used the H‐2b‐derived murine lymphoma mutant
RMA‐S, which has a defect affecting peptide loading of class I molecules, to test whether …
Abstract
Allospecific immune responses against the MHC of another individual are remarkably strong, due to a high number of responding T cell clones. Although it has been demonstrated that some allospecific cytotoxic T lymphocytes (CTL) recognize peptides presented by allogeneic MHC class I molecules, it has remained unclear whether MHC molecules can be recognized directly. We used the H‐2b‐derived murine lymphoma mutant RMA‐S, which has a defect affecting peptide loading of class I molecules, to test whether recognition by allospecific CTL always requires the presence of peptides. Three types of anti‐H‐2Kb CTL clones can be distinguished by their ability to lyse RMA‐S target cells. Type A CTL clones efficiently lyse these target cells, the lysis by type B CTL clones is inefficient, and type C clones fail to lyse RMA‐S. Up‐regulation of the levels of H‐2Kb density improved lysis by type B clones, but did not lead to lysis by type C clones. Some type A and B CTL clones apparently can recognize class I molecules devoid of peptides, while others are likely to recognize peptides which are not affected by the presentation defect of RMA‐S. We suggest that type C clones are specific for peptides which are not presented by the mutant cells. The results show that the majority of alloreactive CTL recognize peptide/MHC complexes, while some CTL behave as if they can recognize class I molecules in the absence of MHC‐bound peptides.
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