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信号调节蛋白α(SIRPα)的裂解增强炎症信号传导。

Cleavage of Signal Regulatory Protein α (SIRPα) Enhances Inflammatory Signaling.

作者信息

Londino James D, Gulick Dexter, Isenberg Jeffrey S, Mallampalli Rama K

机构信息

From the Acute Lung Injury Center of Excellence, Division of Pulmonary, Allergy and Critical Care Medicine, Department of Medicine and.

From the Acute Lung Injury Center of Excellence, Division of Pulmonary, Allergy and Critical Care Medicine, Department of Medicine and Vascular Medicine Institute, Starzl Transplantation Institute, Department of Pharmacology and Chemical Biology, Division of Pulmonary, Allergy and Critical Care Medicine, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania 15213.

出版信息

J Biol Chem. 2015 Dec 25;290(52):31113-25. doi: 10.1074/jbc.M115.682914. Epub 2015 Nov 3.

DOI:10.1074/jbc.M115.682914
PMID:26534964
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4692235/
Abstract

Signal regulatory protein α (SIRPα) is a membrane glycoprotein immunoreceptor abundant in cells of monocyte lineage. SIRPα ligation by a broadly expressed transmembrane protein, CD47, results in phosphorylation of the cytoplasmic immunoreceptor tyrosine-based inhibitory motifs, resulting in the inhibition of NF-κB signaling in macrophages. Here we observed that proteolysis of SIRPα during inflammation is regulated by a disintegrin and metalloproteinase domain-containing protein 10 (ADAM10), resulting in the generation of a membrane-associated cleavage fragment in both THP-1 monocytes and human lung epithelia. We mapped a charge-dependent putative cleavage site near the membrane-proximal domain necessary for ADAM10-mediated cleavage. In addition, a secondary proteolytic cleavage within the membrane-associated SIRPα fragment by γ-secretase was identified. Ectopic expression of a SIRPα mutant plasmid encoding a proteolytically resistant form in HeLa cells inhibited activation of the NF-κB pathway and suppressed STAT1 phosphorylation in response to TNFα to a greater extent than expression of wild-type SIRPα. Conversely, overexpression of plasmids encoding the proteolytically cleaved SIRPα fragments in cells resulted in enhanced STAT-1 and NF-κB pathway activation. Thus, the data suggest that combinatorial actions of ADAM10 and γ-secretase on SIRPα cleavage promote inflammatory signaling.

摘要

信号调节蛋白α(SIRPα)是一种在单核细胞系细胞中大量存在的膜糖蛋白免疫受体。广泛表达的跨膜蛋白CD47与SIRPα结合,导致细胞质中基于免疫受体酪氨酸的抑制基序发生磷酸化,从而抑制巨噬细胞中的NF-κB信号传导。在此,我们观察到炎症过程中SIRPα的蛋白水解受含解整合素和金属蛋白酶结构域蛋白10(ADAM10)调控,在THP-1单核细胞和人肺上皮细胞中均产生膜相关裂解片段。我们在ADAM10介导裂解所需的膜近端结构域附近定位了一个电荷依赖性推定裂解位点。此外,还鉴定出膜相关SIRPα片段内由γ-分泌酶介导的二次蛋白水解裂解。在HeLa细胞中异位表达编码抗蛋白水解形式的SIRPα突变体质粒,比野生型SIRPα的表达更能抑制NF-κB途径的激活,并抑制对TNFα的STAT1磷酸化。相反,在细胞中过表达编码蛋白水解裂解的SIRPα片段的质粒会导致STAT-1和NF-κB途径激活增强。因此,数据表明ADAM10和γ-分泌酶对SIRPα裂解的联合作用促进炎症信号传导。

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本文引用的文献

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The cytoplasmic domain of a disintegrin and metalloproteinase 10 (ADAM10) regulates its constitutive activity but is dispensable for stimulated ADAM10-dependent shedding.解整合素金属蛋白酶10(ADAM10)的胞质结构域调节其组成性活性,但对于受刺激的ADAM10依赖性蛋白水解切割是可有可无的。
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The γ-secretase complex: from structure to function.γ-分泌酶复合物:从结构到功能
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Matrix metalloproteinase-8 plays a pivotal role in neuroinflammation by modulating TNF-α activation.基质金属蛋白酶-8通过调节肿瘤坏死因子-α的激活在神经炎症中起关键作用。
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Thrombospondin-1 activation of signal-regulatory protein-α stimulates reactive oxygen species production and promotes renal ischemia reperfusion injury.血小板反应蛋白-1 激活信号调节蛋白-α 刺激活性氧的产生,促进肾缺血再灌注损伤。
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Signal regulatory protein-α protects against cardiac hypertrophy via the disruption of toll-like receptor 4 signaling.信号调节蛋白-α通过破坏 Toll 样受体 4 信号转导来防止心肌肥厚。
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Synapse maturation by activity-dependent ectodomain shedding of SIRPα.通过依赖于活性的 SIRPα 外结构域脱落促进突触成熟。
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Inflammation-induced proteolytic processing of the SIRPα cytoplasmic ITIM in neutrophils propagates a proinflammatory state.中性粒细胞中 SIRPα 胞质 ITIM 的炎症诱导蛋白水解处理可促进炎症状态的发生。
Nat Commun. 2013;4:2436. doi: 10.1038/ncomms3436.
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SHPS-1 and a synthetic peptide representing its ITIM inhibit the MyD88, but not TRIF, pathway of TLR signaling through activation of SHP and PI3K in THP-1 cells.SHPS-1 和其代表 ITIM 的合成肽通过在 THP-1 细胞中激活 SHP 和 PI3K,抑制 TLR 信号转导的 MyD88,但不抑制 TRIF 途径。
Inflamm Res. 2013 Apr;62(4):377-86. doi: 10.1007/s00011-013-0589-0. Epub 2013 Jan 12.