血红素通过破坏吞噬细胞的功能导致溶血诱导的易感性感染。

Heme drives hemolysis-induced susceptibility to infection via disruption of phagocyte functions.

机构信息

CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences, Vienna, Austria.

Department of Medicine I, Laboratory of Infection Biology, Medical University of Vienna, Vienna, Austria.

出版信息

Nat Immunol. 2016 Dec;17(12):1361-1372. doi: 10.1038/ni.3590. Epub 2016 Oct 31.

DOI:10.1038/ni.3590

PMID:27798618

Abstract

Hemolysis drives susceptibility to bacterial infections and predicts poor outcome from sepsis. These detrimental effects are commonly considered to be a consequence of heme-iron serving as a nutrient for bacteria. We employed a Gram-negative sepsis model and found that elevated heme levels impaired the control of bacterial proliferation independently of heme-iron acquisition by pathogens. Heme strongly inhibited phagocytosis and the migration of human and mouse phagocytes by disrupting actin cytoskeletal dynamics via activation of the GTP-binding Rho family protein Cdc42 by the guanine nucleotide exchange factor DOCK8. A chemical screening approach revealed that quinine effectively prevented heme effects on the cytoskeleton, restored phagocytosis and improved survival in sepsis. These mechanistic insights provide potential therapeutic targets for patients with sepsis or hemolytic disorders.

摘要

溶血导致对细菌感染的易感性，并预测败血症的预后不良。这些不利影响通常被认为是由于血红素铁成为细菌的营养物质所致。我们采用革兰氏阴性败血症模型发现，升高的血红素水平独立于病原体对血红素铁的获取，损害了对细菌增殖的控制。血红素通过激活鸟嘌呤核苷酸交换因子 DOCK8 使 GTP 结合 Rho 家族蛋白 Cdc42 强烈抑制人源和鼠源吞噬细胞的吞噬作用和迁移，破坏肌动蛋白细胞骨架动力学。化学筛选方法表明，奎宁可有效防止血红素对细胞骨架的影响，恢复吞噬作用并改善败血症患者的生存率。这些机制研究为败血症或溶血性疾病患者提供了潜在的治疗靶点。

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血红素通过破坏吞噬细胞的功能导致溶血诱导的易感性感染。

Heme drives hemolysis-induced susceptibility to infection via disruption of phagocyte functions.

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