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CD44 作为一种核心受体,可增强 TGM1(一种寄生虫 TGF-β模拟物)对信号的细胞特异性作用,并诱导调节性 T 细胞。

CD44 acts as a coreceptor for cell-specific enhancement of signaling and regulatory T cell induction by TGM1, a parasite TGF-β mimic.

机构信息

Oncode Institute and Department of Cell and Chemical Biology, Leiden University Medical Center, Leiden 2300 RC, The Netherlands.

Wellcome Centre for Integrative Parasitology, School of Infection and Immunity, University of Glasgow, Glasgow G12 8TA, United Kingdom.

出版信息

Proc Natl Acad Sci U S A. 2023 Aug 22;120(34):e2302370120. doi: 10.1073/pnas.2302370120. Epub 2023 Aug 17.

DOI:10.1073/pnas.2302370120
PMID:37590410
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10450677/
Abstract

Long-lived parasites evade host immunity through highly evolved molecular strategies. The murine intestinal helminth, , down-modulates the host immune system through release of an immunosuppressive TGF-β mimic, TGM1, which is a divergent member of the CCP (Sushi) protein family. TGM1 comprises 5 domains, of which domains 1-3 (D1/2/3) bind mammalian TGF-β receptors, acting on T cells to induce Foxp3 regulatory T cells; however, the roles of domains 4 and 5 (D4/5) remain unknown. We noted that truncated TGM1, lacking D4/5, showed reduced potency. Combination of D1/2/3 and D4/5 as separate proteins did not alter potency, suggesting that a physical linkage is required and that these domains do not deliver an independent signal. Coprecipitation from cells treated with biotinylated D4/5, followed by mass spectrometry, identified the cell surface protein CD44 as a coreceptor for TGM1. Both full-length and D4/5 bound strongly to a range of primary cells and cell lines, to a greater degree than D1/2/3 alone, although some cell lines did not respond to TGM1. Ectopic expression of CD44 in nonresponding cells conferred responsiveness, while genetic depletion of CD44 abolished enhancement by D4/5 and ablated the ability of full-length TGM1 to bind to cell surfaces. Moreover, CD44-deficient T cells showed attenuated induction of Foxp3 by full-length TGM1, to levels similar to those induced by D1/2/3. Hence, a parasite protein known to bind two host cytokine receptor subunits has evolved a third receptor specificity, which serves to raise the avidity and cell type-specific potency of TGF-β signaling in mammalian cells.

摘要

长寿寄生虫通过高度进化的分子策略逃避宿主免疫。鼠肠道寄生虫,通过释放一种免疫抑制性 TGF-β模拟物 TGM1 来下调宿主免疫系统,TGM1 是 CCP(Sushi)蛋白家族的一个分支。TGM1 包含 5 个结构域,其中结构域 1-3(D1/2/3)结合哺乳动物 TGF-β 受体,作用于 T 细胞诱导 Foxp3 调节性 T 细胞;然而,结构域 4 和 5(D4/5)的作用尚不清楚。我们注意到,缺乏 D4/5 的截断 TGM1 显示出降低的效力。D1/2/3 和 D4/5 作为单独的蛋白质组合并没有改变效力,这表明需要物理连接,并且这些结构域不传递独立的信号。用生物素化的 D4/5 处理细胞后进行共沉淀,然后进行质谱分析,鉴定出细胞表面蛋白 CD44 是 TGM1 的核心受体。全长和 D4/5 都强烈结合一系列原代细胞和细胞系,结合程度大于单独的 D1/2/3,尽管一些细胞系对 TGM1 没有反应。在无反应的细胞中外源表达 CD44 赋予了对 TGM1 的反应性,而 CD44 的遗传缺失消除了 D4/5 的增强作用,并使全长 TGM1 结合细胞表面的能力丧失。此外,CD44 缺陷型 T 细胞中全长 TGM1 诱导 Foxp3 的诱导作用减弱,达到与 D1/2/3 诱导的相似水平。因此,一种已知与两种宿主细胞因子受体亚基结合的寄生虫蛋白已经进化出第三种受体特异性,这有助于提高哺乳动物细胞中 TGF-β 信号的亲和力和细胞类型特异性效力。

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