6D and
E). In contrast, selleck chemical the addition of only viable DC, necrotic DC, viable DC and necrotic DC, or apoptotic DC alone or viable DC and apoptotic splenocytes, even with a very high ratio of apoptotic splenocytes to the upper well of the transwell only resulted in approximately 5–6% of naïve CD4+CD25– T cells differentiating into Foxp3+ Treg. Overall, these findings indicate that only upon uptake of apoptotic DC, viable DC acquire the ability to induce Foxp3+ Treg, which is mediated by soluble factors released by viable DC upon apoptotic DC uptake. Additionally, as tolerance is a balance between effector and suppressor T cells, we looked at the effect of apoptotic/necrotic DC on the ability of viable DC
to induce Th17. Our findings demonstrated that it is only upon apoptotic DC uptake that viable DC had a diminished ability to induce Th17 (Fig. 6F). As TGF-β is a known inducer of Foxp3, we looked at the induction of TGF-β1 and TGF-β2 at the mRNA level in viable DC that had taken up apoptotic DC in the presence/absence of LPS. Our findings indicate that at basal levels without any stimulation, there is some expression of TGF-β1 in DC which is suppressed in response to LPS. This suppression is also observed in viable DC incubated with necrotic DC followed by LPS exposure (Fig. 7A). However, no suppression selleck chemicals of TGF-β1 expression is observed in viable DC incubated with apoptotic DC prior to LPS exposure. At the same time, no induction of TGF-β1 is observed in this group. In contrast to TGF-β1, TGF-β2 levels were upregulated approximately 12–13-fold in viable DC incubated with apoptotic DC followed by LPS exposure compared with viable immature DC without any treatment (Fig. 7B). As cytokines are also regulated at translational level, we also looked at the protein levels of total as well as active TGF-β1 by ELISA. Results show that upon uptake of apoptotic DC, there was a significant increase in the secretion
of total as well active TGF-β1 by viable DC (Fig. 7C and D). However, this was not observed upon uptake of necrotic DC or apoptotic splenocytes by viable DC. In addition, viable immature DC upon incubation with apoptotic DC followed by LPS exposure also Selleck Metformin secreted significantly higher levels of both total and active TGF-β1 compared with viable immature DC treated with LPS or viable immature DC incubated with necrotic DC and then treated with LPS. Collectively, these findings clearly show that only upon uptake of apoptotic DC, viable DC secrete increased levels of TGF-β1, which is regulated at the protein level. In order to confirm that it was specifically the release of TGF-β upon uptake of apoptotic DC by live DC, which was mediating induction of Foxp3+ Treg, we repeated Treg differentiation experiments in the presence of TGF-β neutralizing Ab (Fig. 7E).
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