Figure 3
Figure 3. CD4 T-cell differentiation and CD8 priming and differentiation stimulated by β-glucan–activated DCs. (A) OVA Tg CD4+ T cells were cocultured with BMDCs from WT, CD11b−/− or dectin-1−/− mice in the presence or absence of OVA and β-glucans. CD4+ T cells cultured with β-glucans were used as controls. Percent of CD4+IFN-γ+ cells and CD4+ IL-17+ cells is shown (n = 4). (B) CFSE-labeled OVA Tg CD8+ T cells were cultured together with BMDCs in the presence of OVA and β-glucan. CD8+ T cells cultured with β-glucans were used as controls. Graphs show CFSE dilution versus intracellular IFN-γ on day 3 of culture. Percent of CD8+IFN-γ+ cells is shown (n = 4).

CD4 T-cell differentiation and CD8 priming and differentiation stimulated by β-glucan–activated DCs. (A) OVA Tg CD4+ T cells were cocultured with BMDCs from WT, CD11b−/− or dectin-1−/− mice in the presence or absence of OVA and β-glucans. CD4+ T cells cultured with β-glucans were used as controls. Percent of CD4+IFN-γ+ cells and CD4+ IL-17+ cells is shown (n = 4). (B) CFSE-labeled OVA Tg CD8+ T cells were cultured together with BMDCs in the presence of OVA and β-glucan. CD8+ T cells cultured with β-glucans were used as controls. Graphs show CFSE dilution versus intracellular IFN-γ on day 3 of culture. Percent of CD8+IFN-γ+ cells is shown (n = 4).

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