Recombinant thrombomodulin and recombinant antithrombin attenuate pulmonary endothelial glycocalyx degradation and neutrophil extracellular trap formation in ventilator-induced lung injury in the context of endotoxemia.

IF 5.8 2区 医学 Q1 Medicine
Kenichiro Kikuchi, Satoshi Kazuma, Michiaki Yamakage
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引用次数: 0

Abstract

Background: Vascular endothelial damage is involved in the development and exacerbation of ventilator-induced lung injury (VILI). Pulmonary endothelial glycocalyx and neutrophil extracellular traps (NETs) are endothelial protective and damaging factors, respectively; however, their dynamics in VILI and the effects of recombinant thrombomodulin and antithrombin on these dynamics remain unclear. We hypothesized that glycocalyx degradation and NETs are induced by VILI and suppressed by recombinant thrombomodulin, recombinant antithrombin, or their combination.

Methods: VILI was induced in male C57BL/6J mice by intraperitoneal lipopolysaccharide injection (20 mg/kg) and high tidal volume ventilation (20 mL/kg). In the intervention groups, recombinant thrombomodulin, recombinant antithrombin, or their combination was administered at the start of mechanical ventilation. Glycocalyx degradation was quantified by measuring serum syndecan-1, fluorescence-labeled lectin intensity, and glycocalyx-occupied area in the pulmonary vascular lumen. Double-stranded DNA in the bronchoalveolar fluid and fluorescent areas of citrullinated histone H3 and myeloperoxidase were quantified as NET formation.

Results: Serum syndecan-1 increased, and lectin fluorescence intensity decreased in VILI. Electron microscopy revealed decreases in glycocalyx-occupied areas within pulmonary microvessels in VILI. Double-stranded DNA levels in the bronchoalveolar lavage fluid and the fluorescent area of citrullinated histone H3 and myeloperoxidase in lung tissues increased in VILI. Recombinant thrombomodulin, recombinant antithrombin, and their combination reduced glycocalyx injury and NET marker levels. There was little difference in glycocalyx injury and NET makers between the intervention groups.

Conclusion: VILI induced glycocalyx degradation and NET formation. Recombinant thrombomodulin and recombinant antithrombin attenuated glycocalyx degradation and NETs in our VILI model. The effect of their combination did not differ from that of either drug alone. Recombinant thrombomodulin and antithrombin have the potential to be therapeutic agents for biotrauma in VILI.

重组血栓调节蛋白和重组抗凝血酶可减轻呼吸机诱导的内毒素血症肺损伤中的肺内皮细胞糖萼降解和中性粒细胞胞外陷阱的形成。
背景:血管内皮损伤参与了呼吸机诱发肺损伤(VILI)的发生和加重。肺内皮糖萼和中性粒细胞胞外捕获物(NET)分别是内皮保护因子和损伤因子;然而,它们在 VILI 中的动态变化以及重组凝血酶原和抗凝血酶对这些动态变化的影响仍不清楚。我们假设,VILI 会诱导糖萼降解和 NET,而重组凝血酶原、重组抗凝血酶或它们的组合会抑制糖萼降解和 NET:方法:通过腹腔注射脂多糖(20 毫克/千克)和高潮气量通气(20 毫升/千克)诱导雄性 C57BL/6J 小鼠 VILI。在干预组中,机械通气开始时给予重组血栓调节蛋白、重组抗凝血酶或它们的组合。通过测量血清辛迪加-1、荧光标记凝集素强度和肺血管腔内糖萼占位面积来量化糖萼降解情况。支气管肺泡液中的双链DNA以及瓜氨酸组蛋白H3和髓过氧化物酶的荧光区域被量化为NET的形成:结果:VILI患者血清辛迪加-1增加,凝集素荧光强度降低。电子显微镜显示,VILI 患者肺微血管中糖萼占据的区域减少。VILI 患者支气管肺泡灌洗液中的双链 DNA 含量以及肺组织中瓜氨酸化组蛋白 H3 和髓过氧化物酶的荧光面积均有所增加。重组血栓调节蛋白、重组抗凝血酶和它们的组合可减少糖萼损伤和 NET 标记物水平。干预组之间的糖萼损伤和NET标记物差异不大:结论:VILI诱导糖萼降解和NET形成。在我们的 VILI 模型中,重组血栓调节蛋白和重组抗凝血酶减轻了糖萼降解和 NET 的形成。这两种药物联合使用的效果与单独使用两种药物的效果没有区别。重组血栓调节蛋白和抗凝血酶有可能成为治疗 VILI 生物创伤的药物。
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来源期刊
Respiratory Research
Respiratory Research RESPIRATORY SYSTEM-
CiteScore
9.70
自引率
1.70%
发文量
314
审稿时长
4-8 weeks
期刊介绍: Respiratory Research publishes high-quality clinical and basic research, review and commentary articles on all aspects of respiratory medicine and related diseases. As the leading fully open access journal in the field, Respiratory Research provides an essential resource for pulmonologists, allergists, immunologists and other physicians, researchers, healthcare workers and medical students with worldwide dissemination of articles resulting in high visibility and generating international discussion. Topics of specific interest include asthma, chronic obstructive pulmonary disease, cystic fibrosis, genetics, infectious diseases, interstitial lung diseases, lung development, lung tumors, occupational and environmental factors, pulmonary circulation, pulmonary pharmacology and therapeutics, respiratory immunology, respiratory physiology, and sleep-related respiratory problems.
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