32 TLR agonists are therefore potent stimulants of IFN-I release by antigen-presenting cells.33 To mimic the immune response observed buy AZD9668 during viral infections, PBMC were treated overnight with poly(I:C) in order to induce endogenous production of IFN-I. In a preliminary study, we confirmed that poly(I:C) treatment of PBMC from several donors resulted in IFN-α secretion ranging between 30 and 200 pg/ml (data not shown). The addition of poly(I:C) 24 hr prior to anti-CD3 activation led to an average decrease of 40% (P = 0·007) in the production of aTregs (Fig. 4; for cell numbers see Fig. S2). However, in
contrast to IFN-α, poly(I:C) had an inconsistent effect on aTeffs (Figs 4 and S2), which may result from the effects of other cytokines (e.g. IFN-β) induced by TLR3 ligation. To further address the role of endogenously produced IFN-I in the suppression of
aTregs, these assays were also performed in the presence of an antibody that blocks binding of IFN-I to cellular receptors, as well as neutralizing antibodies against TNF-α and IL-6 (Figs 4 and S2). Blocking of IFNα/β receptor produced a significant (P = 0·0001) normalization of Treg activation, with an average recovery Regorafenib of 92% in Treg activation. In contrast, the presence of antibodies against TNF-α and IL-6 had a minimal effect on the suppression of Treg activation induced by poly(I:C). Taken together, these data suggest that innate signals that mimic the immune response to viral infections are able to suppress Treg activation, and that IFN-I probably plays a major role during this process. As IL-2 plays a critical role in Treg development and proliferation,34,35 and because it has previously been shown that IFN-α is a potent
inhibitor of IL-2 production,36 we addressed whether the reduced expansion of Tregs in the presence of IFN-α might result from a decrease in IL-2 production in the polyclonally stimulated PBMC cultures. To that end, IL-2 levels in the culture supernatants were measured by ELISA at 24 and 48 hr post anti-CD3 activation of PBMC in the absence or presence of exogenous IFN-α (1000 U/ml) 3-mercaptopyruvate sulfurtransferase (Fig. 5). IFN-α reduced the production of IL-2 in polyclonally activated PBMC by an average of 45% in the first 24 hr (P = 0·01) and by an average of 55% after 48 hr (P = 0·05) (Fig. 5a). This reduction in IL-2 production correlated with a 66% (P = 0·04) reduction in the generation of aTregs (Fig. 5b). In order to address whether IL-2 inhibition by IFN-α could be reversed in activated PBMC, we tested whether suppression of Treg activation was reversed by exogenous IL-2 (100 Units/ml). Indeed, Treg activation in the presence of IFN-α was improved almost threefold (P = 0·01) by the addition of IL-2 (Fig. 5b), strongly suggesting that down-regulation of endogenous IL-2 production may play a critical role in IFN-α-mediated suppression of Treg activation.