WT B6, CD1d−/−, and Jα18−/− mice were immunized with an uveitogenic human IRBP 1-20 peptide. CD1d−/− and Jα18−/− mice developed more severe uveitis compared with the moderate disease in WT mice, with median disease scores of 2.7 (CD1d−/−), 2.0 (Jα18−/−), and 1.0 (WT) as shown in Fig. 5A and B. Extensive tissue damage, including retinal folding, heavy inflammatory cell infiltration
into the vitreous humor, and choroidal granuloma formation were noted in the eyes of both CD1d−/− and Jα18−/− mice 21 days after immunization (Fig. buy Sorafenib 5A). On the contrary, WT mice exhibited only mild inflammatory cell infiltration and local retinal destruction (Fig. 5A). Although disease severity appears milder in Jα18−/− mice compared with CD1d−/− mice, the difference between CD1d−/− and Jα18−/− mice was not statistically significant (p=0.203). Thus, we used CD1d−/− mice in the majority of the following experiments. CD1d−/− mice also displayed a faster disease kinetic and a higher disease score (1.0) than WT mice (0.3) 14 days after immunization (Fig. 5C). The number of inflammatory cells infiltrating into the eyes 21 days after immunization was doubled in CD1d−/− mice (Fig. 5D). Eye-infiltrating cells from WT mice contained NKT cells (about 7%) as well as CD4+ T cells (about 30%) (Supporting Information Fig. 4). IRBP-specific CD4+ T-cell proliferation
was enhanced (Fig. 5E), and the percentage of either IL-17- or IFN-γ-producing CD4+ T cells was increased (Fig. 5F) in CD1d−/− mice. The production of both IL-17 and IFN-γ in culture supernatants of cultured cells isolated from draining lymph nodes was markedly https://www.selleckchem.com/products/Methazolastone.html increased more than twofold in CD1d−/− mice both mafosfamide at 7 and 10 days after immunization (Fig. 5G). The role of NKT cells in disease regulation was confirmed by the adoptive transfer
of FACS-purified NKT cells into CD1d−/− mice before the induction of uveitis. NKT cells from WT B6 mice inhibited the increased disease progression in CD1d−/− mice and restored it almost to the level seen in WT mice (*p<0.005) (Fig. 5H). NKT cells from all of the cytokine-deficient mice tested (IL-4−/−, IL-10−/−, and IFN-γ−/− mice) also significantly reduced the severity of disease (*p<0.005) in CD1d−/− mice (Fig. 5H). These results suggest that CD1d-dependent invariant NKT cells have a critical role in the regulation of disease progression and that cytokine-independent mechanisms were responsible for these effects. In this study, we demonstrated that invariant NKT cells directly inhibited Th17 and Th1 differentiation. NKT cells from WT B6 mice suppressed both Th17 and Th1 differentiation of CD4+ T cells in vitro, whereas cells from NKT cell-deficient mice, including CD1d−/− (type I and type II NKT deficient) and Jα18−/− (type I invariant NKT deficient) mice, failed to inhibit Th17 or Th1 differentiation (Fig. 1).
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