Plasma gelsolin improves lung host defense against pneumonia by enhancing macrophage NOS3 function

机译：血浆凝溶胶蛋白通过增强巨噬细胞NOS3功能改善肺宿主抵抗肺炎的能力

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Plasma gelsolin (pGSN) functions as part of the “extracellular actin-scavenging system,” but its potential to improve host defense against infection has not been studied. In a mouse model of primary pneumococcal pneumonia, recombinant human pGSN (rhu-pGSN) caused enhanced bacterial clearance, reduced acute inflammation, and improved survival. In vitro, rhu-pGSN rapidly improved lung macrophage uptake and killing of bacteria (Streptococcus pneumoniae, Escherichia coli, and Francisella tularensis). pGSN triggers activating phosphorylation (Ser¹¹⁷⁷) of macrophage nitric oxide synthase type III (NOS3), an enzyme with important bactericidal functions in lung macrophages. rhu-pGSN failed to enhance bacterial killing by NOS3^−/− macrophages in vitro or bacterial clearance in NOS3^−/− mice in vivo. Prophylaxis with immunomodulators may be especially relevant for patients at risk for secondary bacterial pneumonia, e.g., after influenza. Treatment of mice with pGSN challenged with pneumococci on postinfluenza day 7 (the peak of enhanced susceptibility to secondary infection) caused a ∼15-fold improvement in bacterial clearance, reduced acute neutrophilic inflammation, and markedly improved survival, even without antibiotic therapy. pGSN is a potential immunomodulator for improving lung host defense against primary and secondary bacterial pneumonia.

机译：血浆凝溶胶蛋白（pGSN）作为“细胞外肌动蛋白清除系统”的一部分，但尚未研究其改善宿主抵抗感染的能力。在原发性肺炎球菌性肺炎的小鼠模型中，重组人pGSN（rhu-pGSN）可以提高细菌清除率，减少急性炎症并提高生存率。在体外，rhu-pGSN迅速改善了肺巨噬细胞的摄取和细菌（肺炎链球菌，大肠埃希氏菌和土拉弗朗西斯菌）的杀死。 pGSN触发巨噬细胞一氧化氮合酶III型（NOS3）的活化磷酸化（Ser ^{1177 ），这是一种在肺巨噬细胞中具有重要杀菌功能的酶。 rhu-pGSN未能增强NOS3 ^{-/-巨噬细胞的体外细菌杀灭作用或体内NOS3 ^{-/-小鼠的细菌清除能力。免疫调节剂的预防可能与例如继流感后有继发性细菌性肺炎风险的患者特别相关。在感染后第7天用肺炎球菌攻击pGSN小鼠（对继发感染的易感性增强的高峰）治疗，即使不使用抗生素治疗，细菌清除率也提高约15倍，急性中性粒细胞炎症降低，并且存活率显着提高。 pGSN是潜在的免疫调节剂，可改善肺宿主抵抗原发性和继发性细菌性肺炎的能力。}}}

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期刊名称 American Journal of Physiology - Lung Cellular and Molecular Physiology
作者
Zhiping Yang; Terry Ting-Yu Chiou; Thomas P. Stossel; Lester Kobzik;
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作者单位

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年(卷),期 -1(309),1
年度 -1
页码 L11–L16
总页数 7
原文格式 PDF
正文语种
中图分类人体生理学;呼吸生理学;
关键词
pneumonia innate immunity lung macrophages gelsolin nitric oxide;

机译：肺炎;先天免疫;肺巨噬细胞;凝溶胶蛋白;一氧化氮;
入库时间 2022-08-21 10:50:31

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专利

1. Plasma gelsolin improves lung host defense against pneumonia by enhancing macrophage NOS3 function [J] . Zhiping Yang, Terry Ting-Yu Chiou, Thomas P. Stossel, American Journal of Physiology . 2015,第1aPta1期

机译：通过增强巨噬细胞NOS3功能，血浆凝尔啉改善对抗肺炎的肺宿主防御
2. Recombinant Human Plasma Gelsolin Improves Survival and Attenuates Lung Injury in a Murine Model of Multidrug-Resistant Pseudomonas aeruginosa Pneumonia [J] . Mark J DiNubile, Susan L Levinson, Thomas P Stossel, Open Forum Infectious Diseases . 2020,第8期

机译：重组人血浆露珠蛋白在多药抗性铜绿假单胞菌肺炎的小鼠模型中改善生存和衰减肺损伤
3. Lung-Specific Overexpression of CC Chemokine Ligand (CCL) 2 Enhances the Host Defense to Streptococcus pneumoniae Infection in Mice: Role of the CCL2-CCR2 Axis [J] . Christine Winter, Katharina Taut, Mrigank Srivastava, The journal of immunology . 2007,第9期

机译：CC趋化因子配体（CCL）2的肺特异性过表达增强了小鼠肺炎链球菌感染的宿主防御能力：CCL2-CCR2轴的作用
4. Optimal Control of Innate Immune Response on Lung-Macrophages in Pneumonia [C] . Usman Pagalay, Dewi Zumrotul Nafisa, Heni Widayani Symposium on Biomathematics . 2018

机译：肺炎肺巨噬细胞先天免疫反应的最佳控制
5. GAT107 Improves Survival by Attenuating Hyperoxia-Compromised Host Defense in Bacterial Clearance in the Lungs via Alleviating Redox Imbalance in Macrophages [D] . Gauthier, Alex G. 2020

机译：通过减轻巨噬细胞的氧化还原失衡，通过减轻肺部细菌间隙的高氧损害的宿主防御，GAT107通过减轻氧化还原性失衡来改善生存
6. Lung epithelial GM-CSF improves host defense function and epithelial repair in influenza virus pneumonia—a new therapeutic strategy? [O] . Barbara Rösler, Susanne Herold 2016

机译：肺上皮GM-CSF可改善流感病毒性肺炎的宿主防御功能和上皮修复这是一种新的治疗策略吗？
7. Lung epithelial GM-CSF improves host defense function and epithelial repair in influenza virus pneumonia—a new therapeutic strategy? [O] . Barbara Rösler, Susanne Herold 2016

机译：肺上皮GM-CSF可改善流感病毒性肺炎的宿主防御功能和上皮修复，这是一种新的治疗策略吗？

Plasma gelsolin improves lung host defense against pneumonia by enhancing macrophage NOS3 function

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