炭疽杆菌的肽聚糖部分通过降低细胞表面 MERTK 和 TIM-3 的表达抑制人类巨噬细胞的吞噬作用

Q3 Medicine ImmunoHorizons Pub Date : 2024-03-01 DOI:10.4049/immunohorizons.2300109
Joshua S Mytych, Zijian Pan, Charmaine Lopez-Davis, Nancy Redinger, Christina Lawrence, Jadith Ziegler, Narcis I Popescu, Judith A James, A Darise Farris
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摘要

炭疽杆菌肽聚糖(PGN)是细菌细胞壁的主要成分,也是导致炭疽病理(包括器官功能障碍和凝血病)的关键病原体相关分子模式。凋亡白细胞的增加是炭疽和败血症的晚期特征,表明凋亡清除存在缺陷。在这项研究中,我们检验了炭疽杆菌 PGN 抑制人类单核巨噬细胞(MΦ)清除凋亡细胞能力的假设。将 CD163+CD206+ MΦ 暴露于 PGN 24 小时后,会以一种依赖于人血清溶血素但不依赖于补体成分 C3 的方式削弱其渗出能力。PGN处理降低了促吞噬细胞信号受体MERTK、TYRO3、AXL、整合素αVβ5、CD36和TIM-3的细胞表面表达,而TIM-1、αVβ3、CD300b、CD300f、STABILIN-1和STABILIN-2则不受影响。ADAM17 是一种主要的膜结合蛋白酶,与介导细胞外受体裂解有关。我们发现多种 ADAM17 介导的底物在 PGN 处理过的上清液中有所增加,这表明膜结合蛋白酶参与其中。ADAM17抑制剂TAPI-0和Marimastat阻止了TNF的释放,表明蛋白酶得到了有效抑制,并适度增加了细胞表面MerTK和TIM-3的水平,但仅部分恢复了PGN处理的MΦ的流出能力。我们的结论是,人血清因子是人 MΦ 最佳识别 PGN 的必要条件,炭疽杆菌 PGN 部分通过减少细胞表面 MERTK 和 TIM-3 的表达来抑制胞吐。
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Peptidoglycan from Bacillus anthracis Inhibits Human Macrophage Efferocytosis in Part by Reducing Cell Surface Expression of MERTK and TIM-3.

Bacillus anthracis peptidoglycan (PGN) is a major component of the bacterial cell wall and a key pathogen-associated molecular pattern contributing to anthrax pathology, including organ dysfunction and coagulopathy. Increases in apoptotic leukocytes are a late-stage feature of anthrax and sepsis, suggesting there is a defect in apoptotic clearance. In this study, we tested the hypothesis that B. anthracis PGN inhibits the capacity of human monocyte-derived macrophages (MΦ) to efferocytose apoptotic cells. Exposure of CD163+CD206+ MΦ to PGN for 24 h impaired efferocytosis in a manner dependent on human serum opsonins but independent of complement component C3. PGN treatment reduced cell surface expression of the proefferocytic signaling receptors MERTK, TYRO3, AXL, integrin αVβ5, CD36, and TIM-3, whereas TIM-1, αVβ3, CD300b, CD300f, STABILIN-1, and STABILIN-2 were unaffected. ADAM17 is a major membrane-bound protease implicated in mediating efferocytotic receptor cleavage. We found multiple ADAM17-mediated substrates increased in PGN-treated supernatant, suggesting involvement of membrane-bound proteases. ADAM17 inhibitors TAPI-0 and Marimastat prevented TNF release, indicating effective protease inhibition, and modestly increased cell-surface levels of MerTK and TIM-3 but only partially restored efferocytic capacity by PGN-treated MΦ. We conclude that human serum factors are required for optimal recognition of PGN by human MΦ and that B. anthracis PGN inhibits efferocytosis in part by reducing cell surface expression of MERTK and TIM-3.

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