Abstract

Differentiation of regulatory Treg (Treg) in the periphery is critical to control inflammatory processes. Although polarization of inducible Treg (iTreg) often occurs in an inflammatory environment, the effects exerted by inflammation on human iTreg differentiation have not been extensively studied. We observed that IL-1β significantly reduced the frequency of FOXP3+ T cells under iTreg-polarizing conditions. Mechanistically, we show that IL-1β activated mTORC1 and downstream upregulated hypoxia inducible factor-1 (HIF-1α) expression. Using specific inhibitors, we demonstrated that both steps were critical in the deleterious effect of IL-1β on Treg differentiation. Chemical stabilization of HIF-1α by Dimethyloxalylglycine (DMOG) also significantly impaired iTreg differentiation. Interestingly, while IL-1β-treated cells exhibited only minor changes in metabolism, DMOG treatment decreased iTreg mitochondrial respiration and increased their glycolytic capacity. In conclusion, exposure to inflammatory stimuli profoundly inhibits human Treg differentiation HIF-1α dependent, suggesting that targeting HIF-1α could be a strategy to foster iTreg differentiation in an inflammatory milieu. However, IL-1β deleterious effect does not appear to be completely driven by metabolic changes. These data thus suggest that several mechanisms contribute to the regulation of iTreg differentiation, but the timing and respective requirement for each pathway vary depending on the milieu in which iTreg differentiate.

Highlights

  • Regulatory T cells (Treg) control both innate and adaptive immune responses and are essential to prevent exacerbated inflammatory processes in pathological conditions[1, 2]

  • We show for the first time that IL-1β abrogates inducible Treg (iTreg) generation, which would reinforce its pathogenic role

  • We show that IL-1β acts through mTORC1 activation, as its effect was blocked by rapamycin, which acts mainly on mTORC1, while having only minor effects on mTORC236

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Summary

Introduction

Regulatory T cells (Treg) control both innate and adaptive immune responses and are essential to prevent exacerbated inflammatory processes in pathological conditions[1, 2]. Inducible Tregs (iTreg) can be differentiated in vitro from Tcons in presence of IL-2 and TGF-β3–5. The impact of inflammatory cytokines or metabolic changes on human iTreg differentiation is less studied. It is not clearly established whether HIF-1α is a critical rheostat that integrates inflammatory and metabolic stimuli to abrogate human iTreg differentiation. We addressed these questions, by using the well-established model of iTreg differentiation in vitro[20,21,22,23], and determining the effect of IL-1β on this process. We used chemical HIF-1α stabilization by Dimethyloxalylglycine (DMOG) to analyze the role of HIF-1α up-regulation in Treg differentiation

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