5B) Notch-3 mRNA expression on Lgals3−/− TREG cells did not chan

5B). Notch-3 mRNA expression on Lgals3−/− TREG cells did not change after stimulation and was lower than that synthesized by

WT cells (Fig. 5B). However, after stimulation with anti-CD3 and anti-CD28 mAb, Lgals3−/– TREG cells displayed increased Palbociclib cost Hes-1 mRNA expression (Fig. 5B). Interestingly, expression of galectin-3 mRNA was substantially upregulated after stimulation with anti-CD3 and anti-CD28 antibodies in both TEFF and TREG WT cells (Fig. 5C). To further dissect the role of galectin-3 within the TREG-cell compartment during infection, we isolated TEFF and TREG cells from draining LNs of L. major infected Lgals3−/− and WT mice and analyzed Notch-1 and Notch-3 mRNA expression by real-time PCR and flow cytometry. TEFF cells from Lgals3−/−

mice showed increased mRNA expression for Notch-1 and Notch-3 (Fig. 6A) and enhanced Notch-1 protein expression (Fig. 6B), when compared with their WT counterpart. However, despite expressing high amounts of Notch-1 receptor (Fig. 6C), TREG cells from Lgals3−/− mice displayed lower mRNA and protein levels of Notch-3 receptor (Fig. 6D), similar to TREG cells from uninfected Lgals3−/− mice (Fig. 5B). Notably, galectin-3 expression was upregulated in TEFF and TREG cells from WT-infected mice (Fig. 6E); however, we could find no significant change in Jagged-1 expression between TEFF and TREG cells from WT- and AZD6738 concentration Lgals3−/−-infected mice (Fig. 6F). Thus, selected components of the Notch signaling pathway are altered in the absence of galectin-3 and might contribute to the intrinsic immunoregulatory activity of this endogenous lectin within the TREG-cell compartment. To further examine the possibility that endogenous galectin-3 could interfere with Notch activation in TREG cells, we then isolated naïve CD4+CD25− T cells

from the spleens of noninfected WT or Lgals3−/− mice and activated these cells with plate-bound anti-CD3 and soluble anti-CD28 mAbs in the presence of IL-2 and TGF-β. After 5 days, cells were harvested and analyzed for CD25 and Foxp3 expression. The differentiation rate was comparable in cells isolated from either Lgals3−/− or WT animals. About 60% of stimulated CD4+CD25− T cells became CD4+CD25+ double positive Niclosamide cells and among them, 50% were also positive for Foxp3 (Fig. 7A and B). When CD4+CD25− T cells were cultured in the presence of the γ-secretase inhibitor N-((3,5-difluorophenyl)acetyl)-L-alanyl-2-phenylglycine-1,1-dimethylethyl ester (DAPT) (10 μM), TREG-cell differentiation was completely abolished in both KO and WT groups (Fig. 7B). However, in vitro induced TREG cells from Lgals3−/− mice synthesized higher amounts of IL-10 (Fig. 7C) compared with WT mice, similar to conventional TREG cells isolated from infected and noninfected Lgals3−/− mice (Figs. 3F and 4B, respectively).

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