Egr-2-expressing CD4+CD25−LAG3+ Treg cells are Foxp3-negative, IL-10-producing T cells and are enriched in Peyer’s patch [21]. Our observation that IL-27 induces CD4+Egr2+LAG3+ T cells may be associated with IL-27-mediated control of gut homeostasis; INK 128 chemical structure however, a more detailed investigation is required to elucidate the role of IL-27 in keeping intestinal homeostasis. It has been well documented that stimulation of T cells through TCR in the absence of
co-stimulation can result in long-term hyporesponsiveness to subsequent stimulation, which is termed anergy. It has been also reported that Egr-2 is required for the full induction of T-cell anergy [20, 40]. Egr-2 expression is rapidly induced within 6 h after TCR stimulation [41] and our results indicated that although IL-27-mediated Egr-2 induction was dependent on TCR stimulation, the TCR signal was not sufficient to support sustained Egr-2 expression. In addition to IL-27, another STAT3 activating cytokine, IL-6, also induced expressions of Egr-2, Blimp-1, and IL-10.
This result was consistent with a previous report in which IL-6 induced STAT3-mediated production of IL-10 in CD4+ T cells [17] and suggested that not only STAT1-STAT3 heterodimers in response to IL-27 stimulation but also STAT3 homodimers in response to IL-6 stimulation PCI 32765 could induce Egr-2 expression. However, IL-27 induces Blimp-1 and IL-10 more efficiently than IL-6 and the involvement of STAT1 should be addressed further. It is well known that IL-2 has paradoxical functions in T-cell homeostasis, acting as a T-cell growth factor and having a crucial function in the maintenance of self-tolerance. Sun et al. [26] reported that the effective induction of IL-10-producing CD8+ CTLs Etoposide concentration by IL-27 requires the presence of IL-2, and that the IL-2-IL-27-mediated induction of IL-10 as well as the IL-27-mediated
induction of IL-10 was Blimp-1 dependent. However, we observed that the addition of IL-2 did not up-regulate IL-10 and Blimp-1 mRNA induction levels by IL-27 in CD4+ T cells. In addition, IL-2 showed no synergistic effect on IL-27-induced Egr-2 and LAG-3 expressions in our experiments. This result is consistent with the fact that increased Egr-2 level by Ag activation was not affected by the addition of IL-2 in peptide treatment-induced CD4+ Treg cells [42]. These observations suggest that Blimp-1 is important for IL-27-induced IL-10 production both in CD4+ and CD8+ T cells, but the pathway leading to the activation of Blimp-1 is differently regulated between these cells. Egr-2-expressing CD4+CD25−LAG3+ Treg cells are anergic and have regulatory activities at least in part via IL-10 production. Because our results showed that Egr-2 is indispensable for the full production of IL-10 in CD4+ T cells after IL-27 stimulation, Egr-2 could be one of the molecular links between anergy and IL-10 production in CD4+ T cells.