key: cord-0013938-m1nu0xu3
authors: Safavi, Farinaz; Thome, Rodolfo; Li, Zichen; Wang, Limei; Rasouli, Javad; Ciric, Bogoljub; Zhang, Guang-Xian; Rostami, Abdolmohamad
title: A serine protease inhibitor induces type 1 regulatory T cells through IFN-γ/STAT1 signaling
date: 2020-01-03
journal: Cell Mol Immunol
DOI: 10.1038/s41423-019-0354-6
sha: 8cd1d3c40d28243fd8a09d25073c238b52e20413
doc_id: 13938
cord_uid: m1nu0xu3

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Type 1 regulatory T cells (CD4 + Foxp3 − LAG3 + CD49b + ), or Tr1 cells, have a remarkable capacity to suppress autoimmune inflammation through IL-10. 1 Although the signals that lead to Tr1-cell differentiation are not completely elucidated, it is known that IL-27 plays a major role in this phenomenon. 2 However, committed inflammatory Th17 cells are resistant to IL-27, 3 making their effectiveness in the clinic limited. Thus, there is an unmet need to identify new drugs that stimulate Tr1-cell development. We have shown that a soybean-derived serine protease inhibitor, Bowman-Birk inhibitor (BBI), dramatically suppressed experimental autoimmune encephalomyelitis (EAE), the mouse model of multiple sclerosis (MS), by inducing IL-10. 4 However, the immunomodulatory mechanism by which BBI induces IL-10 and suppresses EAE has not been elucidated.

We first investigated whether BBI could induce IL-10 at similar levels as IL-27 by activating CD4 + T cells in the presence or absence of these compounds and measuring IL-10 levels in culture supernatants. We found that both BBI and IL-27 increased IL-10 levels similarly (Fig. 1a) . Because IL-10 is closely associated with Foxp3 + regulatory T cells, we analyzed Foxp3 expression in cells activated with BBI and found that BBI did not induce Foxp3 expression in IL-10 + CD4 + T cells; however, it did induce T-bet and IFN-γ expression (Fig. 1b) . Th1 cells that produce IL-10 have been previously described, 5 and coexpression of LAG3 and CD49b identifies Tr1 cells and distinguishes them from Th1 cells in humans and mice. 1, 6 We found that BBI significantly increased the coexpression of LAG3 and CD49b on total CD4 + T cells and in IL-10 + CD4 + T cells (Fig. 1c) . Interestingly, pretreatment with BBI significantly reduced the pathogenicity of MOG 35-55 -reactive cells ( Fig. 1d ) by inducing Foxp3 − LAG3 + CD49b + Tr1 cells (not shown). These findings show that BBI induces the development of IL-10 + CD4 + T cells with a phenotype consistent with that of Tr1 cells.

Although IL-27 potently induces Tr1 cells, 2 we found that BBI induced IL-10 and IFN-γ production in WT and IL-27R −/− CD4 + T cells (Fig. 1e) . BBI did not increase the expression of IL-27 subunits (p28 and EBI-3) (data not shown). These data show that BBI induces IL-10 in an IL-27-independent manner. Additionally, Stat-1 is downstream of IL-27R signaling and induces IL-10-and Tr1-cell differentiation. 2 Moreover, it is known that T-bet −/− and Stat-1 −/− cells produce more IL-10 than WT cells under homeostatic conditions. 7, 8 We found that BBI failed to upregulate IL-10 production in Stat-1 −/− cells (Fig. 1f) . In T-bet −/− cells, BBI induced IL-10 but at significantly lower levels than in WT cells (Fig. 1f) .

BBI increased IFN-γ production, and the lack of Stat-1 abrogated the IFN-γ and IL-10 production stimulated by BBI (Fig. 1f) . To address whether IFN-γ production is upstream of IL-10 production, CD4 + T cells from WT and IFN-γ −/− mice were stimulated with or without BBI, and IL-10 production was assessed. We found that, while WT CD4 + T cells had increased IL-10 levels, this effect was hampered in IFN-γ −/− CD4 + T cells (not shown). We then examined whether IFN-γ plays a role in the therapeutic effect of BBI in WT and IFN-γ −/− EAE-mice-fed BBI. The lack of IFN-γ significantly decreased the therapeutic effect of BBI in treated groups (Fig. 1g) . Moreover, BBI increased IL-10 + CD4 + T cells among the CNS-infiltrating cells in WT but not in IFN-γ −/− mice (Fig. 1h) . Together, these findings show that IFN-γ and Stat1 are fundamental signals in Tr1-cell differentiation and in BBI-induced EAE suppression.

To verify whether human cells can phenocopy the effect of BBI treatment we observed in the mouse system, peripheral blood mononuclear cells (PBMCs) from healthy donors were collected and cultured in the presence or absence of BBI. Our results showed that BBI induced a significant increase in LAG3 + CD49b + CD4 + T cells compared to PBS treatment (Fig. 1i) . Moreover, we measured IL-10 production by BBI-treated PBMCs obtained from healthy donors and untreated MS patients. We found that BBI significantly increased IL-10 production by cells from healthy donors and untreated MS patients (Fig. 1j) . Collectively, our results show that Tr1 cells are efficiently induced by BBI in an IFN-γ/Stat-1-dependent manner. Moreover, cells from untreated MS patients produced high amounts of IL-10 after BBI treatment, suggesting that BBI may be effective in suppressing chronic inflammation in MS and other autoimmune diseases. c Cells were stimulated as in a, and the expression of CD49b and LAG3 in total CD4 + T cells and in IL-10 + CD4 + T cells was analyzed by flow cytometry. d Cells from the lymph nodes of MOG 35-55 -immunized C57BL/6 mice were reactivated in the presence of IL-12 (10 ng/mL) plus PBS or BBI (0.5 mg/ml) for 72 h before adoptive transfer to naïve mice. The area under the curve was used to calculate p-values (*p < 0.05). e, f Cells were stimulated as in a, and the expression of IL-10 and IFN-γ in CD4 + T cells was analyzed by flow cytometry. g WT and IFN-γ −/− mice were immunized with MOG 35-55 and fed 3 mg/day BBI or PBS (n = 5/group) from the day of immunization until the end of the experiment. The area under the curve was used to calculate p-values (*p < 0.05). h EAE mice were euthanized, and cells from the CNS were isolated and analyzed by flow cytometry. i Flow cytometry of CD4 + T cells from PBMCs of healthy donors after activation in the presence or absence of BBI. j ELISA of IL-10 production by PBMCs from healthy donors (n = 6) and untreated MS patients (n = 7) stimulated with PBS or BBI for 72 h. Paired t-test was used to calculate p-values. (*p < 0.05).

A serine protease inhibitor induces type 1 regulatory T cells through. . . F Safavi et al.

Coexpression of CD49b and LAG-3 identifies human and mouse T regulatory type 1 cells

Suppression of autoimmune inflammation of the central nervous system by interleukin 10 secreted by interleukin 27-stimulated T cells

Differential effect of IL-27 on developing versus committed Th17 cells

Interleukin-10 plays a crucial role in suppression of experimental autoimmune encephalomyelitis by Bowman-Birk inhibitor

CD4(+)CD25(-)Foxp3(-) Th1 cells are the source of IL-10-mediated immune suppression in chronic cutaneous leishmaniasis

Beyond type 1 regulatory T cells: co-expression of LAG3 and CD49b in IL-10-producing T cell lineages

Loss of T-bet, but not STAT1, prevents the development of experimental autoimmune encephalomyelitis

T-bet is essential for the progression of experimental autoimmune encephalomyelitis

This work was supported by NIH grant R01AT005322, R01AI124386 to A.R. The authors thank Katherine Regan for editorial assistance.

Competing interests: The authors declare no competing interests.