Investigating the complex cellular interplay controlling immunopathogenic and immunoregulatory responses is critical for understanding multiple sclerosis (MS) and for developing successful immunotherapies. Our group has demonstrated that CNS myelin-specific CD8 T cells unexpectedly harbor immune regulatory capacity in both mouse and human. In particular, PLP-specific CD8 T cells (PLP-CD8) robustly suppress the MS mouse model experimental autoimmune encephalomyelitis. We have recently shown that this depends on PLP-CD8 elaborating IFN-γ and perforin in a coordinated suppression program over time. However, the cellular target and downstream effects of CD8 T cell-derived IFN-γ remains poorly understood. In this study, we show that although wild-type (WT) PLP-CD8 were robustly suppressive in IFN-γR-deficient mice, IFN-γR-deficient PLP-CD8 exhibited suboptimal suppression in WT mice. Compared with WT counterparts, IFN-γR-deficient PLP-CD8 were defective in suppressing disease in IFN-γ-deficient recipients, a scenario in which the only IFN-γ available to WT PLP-CD8 is that which they produce themselves. Further, we found that IFN-γR-deficient PLP-CD8 exhibited altered granzyme/IFN-γ profiles, altered migration in recipients, and deficits in killing capacity in vivo. Collectively, this work suggests that IFN-γ responsiveness allows myelin-specific CD8 T cells to optimally perform autoregulatory function in vivo. These insights may help elucidate future adoptive immunotherapeutic approaches for MS patients.
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| http://dx.doi.org/10.4049/jimmunol.2000211 | DOI Listing |
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