体内固有机制使 Foxp3 表达的调节性 T 细胞易于向 Th2 转化。

An intrinsic mechanism predisposes Foxp3-expressing regulatory T cells to Th2 conversion in vivo.

机构信息

Department of Microbiology and Immunology, Lineberger Comprehensive Cancer Center, University of North Carolina, Chapel Hill, NC 27599, USA.

出版信息

J Immunol. 2010 Nov 15;185(10):5983-92. doi: 10.4049/jimmunol.1001255. Epub 2010 Oct 13.

DOI:10.4049/jimmunol.1001255

PMID:20944002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2974034/

Abstract

Naturally occurring regulatory T (nTreg) cells express Foxp3 and were originally discovered as immune suppressors critical for self-tolerance and immune homeostasis. Through yet-to-be-defined mechanisms, nTreg cells were recently shown to convert into proinflammatory cells. Particularly, attenuation of Foxp3 expression led to Th2 conversion of nTreg cells in vivo. In this paper, we demonstrated an nTreg-specific mechanism controlling their Th2 conversion. We found that wild-type nTreg cells expressing reduced levels of Foxp3 but not those expressing no Foxp3 produced the Th2 cytokine IL-4. Intriguingly, IL-4 production by converted nTreg cells is required for Th2 differentiation of coexisting naive CD4 T cells in vivo, suggesting that Th2 conversion of nTreg cells might be critical for directing Th2 immune responses. Th2 conversion of nTreg cells was not due to their inability to become Th1 cells, because IFN-γ was produced by Foxp3-low-expressing cells when IL-4/STAT-6 signaling was abrogated. Surprisingly, however, unlike naive CD4 T cells whose IL-4 production is dependent on STAT-6, Foxp3-low-expressing cells generated IL-4 independent of STAT-6, indicating an intrinsic mechanism that favors nTreg-to-Th2 differentiation. Indeed, compared with naive CD4 T cells, nTreg expressed elevated levels of GATA-3 independent of STAT-6. And GATA-3 was required for nTreg-to-Th2 conversion. Foxp3 may account for this GATA-3 upregulation in nTreg cells, because ectopic expression of Foxp3 preferentially promoted GATA-3 but not T-bet expression. Thus, we have identified an intrinsic mechanism that imposes a Th2/Th1 imbalance and predisposes Foxp3-expressing cells to IL-4 production independent of STAT-6 signaling.

摘要

天然存在的调节性 T（nTreg）细胞表达 Foxp3，最初被发现是免疫抑制细胞，对自身耐受和免疫稳态至关重要。通过尚未确定的机制，nTreg 细胞最近被证明可以转化为促炎细胞。特别是，Foxp3 表达的衰减导致体内 nTreg 细胞向 Th2 转化。在本文中，我们展示了一种控制 nTreg 细胞 Th2 转化的 nTreg 特异性机制。我们发现，表达低水平 Foxp3 的野生型 nTreg 细胞而不是不表达 Foxp3 的 nTreg 细胞产生了 Th2 细胞因子 IL-4。有趣的是，体内共存的幼稚 CD4 T 细胞的 Th2 分化需要转化的 nTreg 细胞产生 IL-4，这表明 nTreg 细胞的 Th2 转化可能对指导 Th2 免疫反应至关重要。nTreg 细胞的 Th2 转化不是由于其不能成为 Th1 细胞，因为当 IL-4/STAT-6 信号被阻断时，Foxp3 低表达细胞产生 IFN-γ。然而，令人惊讶的是，与依赖 STAT-6 产生 IL-4 的幼稚 CD4 T 细胞不同，Foxp3 低表达细胞产生的 IL-4 不依赖于 STAT-6，这表明存在一种有利于 nTreg 向 Th2 分化的内在机制。事实上，与幼稚 CD4 T 细胞相比，nTreg 细胞在不依赖于 STAT-6 的情况下表达更高水平的 GATA-3。并且 GATA-3 是 nTreg 向 Th2 转化所必需的。Foxp3 可能解释了 nTreg 细胞中这种 GATA-3 的上调，因为 Foxp3 的异位表达优先促进 GATA-3 的表达而不是 T-bet 的表达。因此，我们已经确定了一种内在机制，该机制造成 Th2/Th1 失衡，并使表达 Foxp3 的细胞能够独立于 STAT-6 信号产生 IL-4。

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