足突蛋白是 Th17 炎症的负调控因子。
Podoplanin is a negative regulator of Th17 inflammation.
机构信息
Department of Neurology.
Interdepartmental Neuroscience Program.
出版信息
JCI Insight. 2017 Sep 7;2(17). doi: 10.1172/jci.insight.92321.
Recent data indicate that there are different subpopulations of Th17 cells that can express a regulatory as opposed to an inflammatory gene signature. The transmembrane glycoprotein PDPN is critical in the development of multiple organs including the lymphatic system and has been described on T cells in mouse models of autoimmune Th17 inflammation. Here, we demonstrate that unlike in mice, PDPN+ T cells induced under classic Th17-polarizing conditions express transcription factors associated with Th17 cells but do not produce IL-17. Moreover, these cells express a transcriptional profile enriched for immunosuppressive and regulatory pathways and express a distinct cytokine profile compared with potentially pathogenic PDPN- Th17 cells. Ligation of PDPN by its ligand CLEC-2 ameliorates the Th17 inflammatory response. IL-17 secretion is restored with shRNA gene silencing of PDPN. Furthermore, PDPN expression is reduced via an Sgk1-mediated pathway under proinflammatory, high sodium chloride conditions. Finally, CD3+PDPN+ T cells are devoid of IL-17 in skin biopsies from patients with candidiasis, a prototypical Th17-driven skin disease. Thus, our data support the hypothesis that PDPN may serve as a marker of a nonpathogenic Th17 cell subset and may also functionally regulate pathogenic Th17 inflammation.
最近的数据表明,Th17 细胞存在不同的亚群,这些亚群可以表达调节性而不是炎症性基因特征。跨膜糖蛋白 PDPN 对于包括淋巴系统在内的多个器官的发育至关重要,并且在自身免疫性 Th17 炎症的小鼠模型中的 T 细胞上已经被描述过。在这里,我们证明与在小鼠中不同,在经典的 Th17 极化条件下诱导的 PDPN+T 细胞表达与 Th17 细胞相关的转录因子,但不产生 IL-17。此外,与潜在的致病性 PDPN-Th17 细胞相比,这些细胞表达富含免疫抑制和调节途径的转录谱,并表达独特的细胞因子谱。其配体 CLEC-2 与 PDPN 的结合可改善 Th17 炎症反应。通过 PDPN 的 shRNA 基因沉默恢复了 IL-17 的分泌。此外,在促炎、高氯化钠条件下,通过 Sgk1 介导的途径降低 PDPN 的表达。最后,在念珠菌病(一种典型的 Th17 驱动的皮肤疾病)患者的皮肤活检中,CD3+PDPN+T 细胞缺乏 IL-17。因此,我们的数据支持 PDPN 可能作为非致病性 Th17 细胞亚群的标志物的假设,并且也可能在功能上调节致病性 Th17 炎症的假说。
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