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巨噬细胞 Toll 样受体 2 的释放:糖皮质激素和脂多糖诱导的抗炎程序。

Toll-Like Receptor 2 Release by Macrophages: An Anti-inflammatory Program Induced by Glucocorticoids and Lipopolysaccharide.

机构信息

Department of Pharmacy, Pharmaceutical Biology, Saarland University, Saarbrücken, Germany.

Department of Computer Science, German Jordanian University, Amman, Jordan.

出版信息

Front Immunol. 2019 Jul 23;10:1634. doi: 10.3389/fimmu.2019.01634. eCollection 2019.

DOI:10.3389/fimmu.2019.01634
PMID:31396208
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6664002/
Abstract

Glucocorticoids (GCs) are widely prescribed therapeutics for the treatment of inflammatory diseases, and endogenous GCs play a key role in immune regulation. Toll-like receptors (TLRs) enable innate immune cells, such as macrophages, to recognize a wide variety of microbial ligands, thereby promoting inflammation. The interaction of GCs with macrophages in the immunosuppressive resolution phase upon prolonged TLR activation is widely unknown. Treatment of human alveolar macrophages (AMs) with the synthetic GC dexamethasone (Dex) did not alter the expression of TLRs -1, -4, and -6. In contrast, TLR2 was upregulated in a GC receptor-dependent manner, as shown by Western blot and qPCR. Furthermore, long-term lipopolysaccharide (LPS) exposure mimicking immunosuppression in the resolution phase of inflammation synergistically increased Dex-mediated TLR2 upregulation. Analyses of publicly available datasets suggested that TLR2 is induced during the resolution phase of inflammatory diseases, i.e., under conditions associated with high endogenous GC production. TLR2 induction did not enhance TLR2 signaling, as indicated by reduced cytokine production after treatment with TLR2 ligands in Dex- and/or LPS-primed AMs. Thus, we hypothesized that the upregulated membrane-bound TLR2 might serve as a precursor for soluble TLR2 (sTLR2), known to antagonize TLR2-dependent cell actions. Supernatants of LPS/Dex-primed macrophages contained sTLR2, as demonstrated by Western blot analysis. Activation of metalloproteinases resulted in enhanced sTLR2 shedding. Additionally, we detected full-length TLR2 and assumed that this might be due to the production of TLR2-containing extracellular vesicles (EVs). EVs from macrophage supernatants were isolated by sequential centrifugation. Both untreated and LPS/Dex-treated cells produced vesicles of various sizes and shapes, as shown by cryo-transmission electron microscopy. These vesicles were identified as the source of full-length TLR2 in macrophage supernatants by Western blot and mass spectrometry. Flow cytometric analysis indicated that TLR2-containing EVs were able to bind the TLR2 ligand PamCSK. In addition, the presence of EVs reduced inflammatory responses in PamCSK-treated endothelial cells and HEK Dual reporter cells, demonstrating that TLR2-EVs can act as decoy receptors. In summary, our data show that sTLR2 and full-length TLR2 are released by macrophages under anti-inflammatory conditions, which may contribute to GC-induced immunosuppression.

摘要

糖皮质激素(GCs)被广泛用于治疗炎症性疾病,内源性 GCs 在免疫调节中起着关键作用。Toll 样受体(TLRs)使巨噬细胞等固有免疫细胞能够识别多种微生物配体,从而促进炎症反应。GC 与在 TLR 持续激活的免疫抑制缓解阶段的巨噬细胞相互作用的机制尚未完全明确。用合成 GC 地塞米松(Dex)处理人肺泡巨噬细胞(AMs)不会改变 TLR-1、-4 和 -6 的表达。相反,TLR2 的表达以 GC 受体依赖的方式上调,这一点通过 Western blot 和 qPCR 得到证实。此外,长期脂多糖(LPS)暴露模拟炎症缓解阶段的免疫抑制,协同增强 Dex 介导的 TLR2 上调。对公开数据集的分析表明,TLR2 在炎症性疾病的缓解阶段被诱导,即在与内源性 GC 产生相关的条件下被诱导。TLR2 的诱导并没有增强 TLR2 信号,因为在用 TLR2 配体处理 Dex 和/或 LPS 预刺激的 AMs 后,细胞因子的产生减少。因此,我们假设上调的膜结合 TLR2 可能作为可溶性 TLR2(sTLR2)的前体,已知后者拮抗 TLR2 依赖性细胞作用。用 Western blot 分析证实,LPS/Dex 预刺激的巨噬细胞的上清液中含有 sTLR2。金属蛋白酶的激活导致 sTLR2 脱落增加。此外,我们检测到全长 TLR2,并假设这可能是由于含有 TLR2 的细胞外囊泡(EVs)的产生。通过连续离心从巨噬细胞上清液中分离 EVs。用冷冻传输电子显微镜观察到,未经处理和 LPS/Dex 处理的细胞均产生各种大小和形状的囊泡。Western blot 和质谱分析表明,巨噬细胞上清液中的全长 TLR2 来源于这些囊泡。流式细胞术分析表明,含有 TLR2 的 EVs 能够结合 TLR2 配体 PamCSK。此外,EV 的存在降低了 PamCSK 处理的内皮细胞和 HEK 双报告细胞中的炎症反应,表明 TLR2-EVs 可以作为诱饵受体发挥作用。总之,我们的数据表明,sTLR2 和全长 TLR2 在抗炎条件下由巨噬细胞释放,这可能有助于 GC 诱导的免疫抑制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/15d6632fb8c4/fimmu-10-01634-g0008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/4d065c6afe81/fimmu-10-01634-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/4a752bfa53c7/fimmu-10-01634-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/43f2427083ff/fimmu-10-01634-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/09bfa6a2621c/fimmu-10-01634-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/a37d811c1bb0/fimmu-10-01634-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/770cc564c460/fimmu-10-01634-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/5c1bc2e0db43/fimmu-10-01634-g0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/15d6632fb8c4/fimmu-10-01634-g0008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/4d065c6afe81/fimmu-10-01634-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/4a752bfa53c7/fimmu-10-01634-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/43f2427083ff/fimmu-10-01634-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/09bfa6a2621c/fimmu-10-01634-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/a37d811c1bb0/fimmu-10-01634-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/770cc564c460/fimmu-10-01634-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/5c1bc2e0db43/fimmu-10-01634-g0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9763/6664002/15d6632fb8c4/fimmu-10-01634-g0008.jpg

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