These effects were entirely or predominantly absent for media der

These effects were entirely or predominantly absent for media derived from indomethacin-containing cultures. Addition of medium from Th17 cultures lacking MSCs had no suppressive effect and was not influenced by indomethacin. Reversal of the MSC suppressive effect on primary Th17 differentiation

was also demonstrated using NS-398, a selective COX-2 inhibitor (Fig. 5C). Next, MSCs were FACS-purified from 4-day Th17 co-cultures and subjected to qRT-PCR and Western blotting (Fig. 5D) using COX-1 and COX-2-specific reagents. As shown, specific up-regulation of COX-2 in MSCs co-cultured with CD4+ click here T cells under Th17-skewing conditions was observed at mRNA and protein level. Blocking/inhibition experiments carried out to examine the role of other candidate mediators (NO, IDO, Selleckchem PD-332991 IL-10, CCL2) yielded negative or minimally significant results (data not shown). Overall, these experiments supported a conclusion that the primary mechanism of Th17 suppression from both naïve and memory-phenotype CD4+ T cells was the production of a prostanoid mediator due to induced up-regulation of COX-2 in MSCs following direct contact between MSCs and activated T cells. As PGE2 has been reported to mediate multiple immune suppressive effects of MSCs 1, 2, 7, 9, 12, 18, supernatants from MSC/Th17 co-cultures of 6–72 h duration were analysed for PGE2 concentration with

relevant controls (Fig. 6A). Neither MSCs cultured alone nor CD4+ T cells cultured with or without Th17-inducing reagents generated high PGE2 levels. In contrast, MSC/T-cell co-cultures under Th17 differentiating find more conditions had significant accumulation of PGE2 over 12–72 h. Interestingly, increased PGE2 production

was also observed from 12 to 24 h in MSC/T-cell co-cultures lacking Th17-inducing factors but levels declined again between 48 and 72 h. In additional experiments, MSCs were formally confirmed to be the predominant source of PGE2 in MSC/Th17 co-cultures by sorting individual cell populations following 18 h of co-culture then re-plating them for an additional 18 h and quantifying PGE2 concentration in the resulting supernatants (Supplementary Figs. S5, S6 and S7A). PGE2 concentration increased in a dose-dependent manner in Th17 cultures involving direct contact with MSCs but not in Transwell® co-cultures at the same MSC:CD4+T-cell ratios (Supplementary Fig. S8A). Additionally, PGE2 concentrations in supernatants from fibroblast/Th17 co-culture supernatants were not different to those of control Th17 cultures (Supplementary Fig. S8B). It was next determined whether MSC suppressive effects on primary Th17 cultures were mediated by PGE2. Addition of purified PGE2 was associated with a dose-dependent inhibition of T-cell proliferation and IL-17A production (Fig. 6B) as well as of CD25 surface expression and IL-17A production following re-stimulation (data not shown).

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