无细胞血红蛋白介导的血管通透性增加。原发性移植物功能障碍的新机制和新的治疗靶点。
Cell-Free Hemoglobin-mediated Increases in Vascular Permeability. A Novel Mechanism of Primary Graft Dysfunction and a New Therapeutic Target.
机构信息
1 Department of Allergy, Pulmonary, and Critical Care Medicine, Vanderbilt University Medical Center, Nashville, Tennessee.
2 Department of Anesthesia, Keio University, Tokyo, Japan.
出版信息
Ann Am Thorac Soc. 2017 Sep;14(Supplement_3):S251-S252. doi: 10.1513/AnnalsATS.201609-693MG.
RATIONALE
Cell-free hemoglobin (CFH) is a potent oxidant associated with poor clinical outcomes in a variety of clinical settings. Recent studies suggest that acetaminophen (APAP), a specific hemoprotein reductant, can abrogate CFH-mediated oxidative injury and organ dysfunction. Preoperative plasma CFH levels are independently associated with primary graft dysfunction (PGD) after lung transplant ( 1 ).
OBJECTIVES
Our objectives were to determine whether CFH would increase lung vascular permeability in the isolated perfused human lung and whether APAP would limit these effects.
METHODS
Human lungs declined for transplant were inflated and perfused with Dulbecco's modified Eagle medium/5% albumin at a pulmonary artery pressure of 8-12 mm Hg. After steady state was achieved, CFH (100 mg/dl) was added to the perfusate ± APAP (15 μg/ml). Lung permeability was measured by continuous monitoring of lung weight gain and by extravasation of Evans blue dye-labeled albumin from the vasculature into bronchoalveolar lavage. To test the mechanism of increased permeability, human pulmonary microvascular endothelial cells were exposed to CFH (0.5 mg/ml) ± APAP (160 μM) for 24 hours and permeability was assessed by electrical cell-substrate impedance sensing.
MEASUREMENT AND MAIN RESULTS
In the isolated perfused human lung, CFH increased lung permeability over 2 hours compared with control lungs (12% vs. 2% weight gain from baseline, P = 0.03). Increased vascular permeability was confirmed by a 4.8-fold increase in Evans blue dye-labeled albumin in the airspace compared with control lungs. Pretreatment with APAP prevented lung weight gain (P = 0.06 vs. CFH). In human pulmonary microvascular endothelial cells, CFH increased monolayer permeability (P = 0.03 vs. control), and this was attenuated by APAP (P = 0.045 vs. CFH).
CONCLUSIONS
Circulating CFH increases vascular permeability in the isolated perfused human lung and paracellular permeability in lung microvascular endothelial cells. These effects may explain the association of plasma CFH levels with PGD. The hemoprotein reductant APAP attenuates the effects of CFH and merits further exploration as a potential therapy for PGD prevention.
背景
无细胞血红蛋白(CFH)是一种强有力的氧化剂,与多种临床情况下的不良临床结局相关。最近的研究表明,对乙酰氨基酚(APAP),一种特异性血红素还原剂,可以阻断 CFH 介导的氧化损伤和器官功能障碍。术前血浆 CFH 水平与肺移植后原发性移植物功能障碍(PGD)独立相关(1)。
目的
我们的目的是确定 CFH 是否会增加离体灌注人肺的肺血管通透性,以及 APAP 是否会限制这些作用。
方法
用于移植的人肺在肺动脉压为 8-12mmHg 时用 Dulbecco 改良 Eagle 培养基/5%白蛋白充气和灌注。达到稳定状态后,将 CFH(100mg/dl)加入灌流液中,加或不加 APAP(15μg/ml)。通过连续监测肺重量增加和 Evans 蓝染料标记的白蛋白从血管漏出到支气管肺泡灌洗中来测量肺通透性。为了测试通透性增加的机制,将人肺微血管内皮细胞暴露于 CFH(0.5mg/ml)±APAP(160μM)24 小时,通过电细胞-基底阻抗传感评估通透性。
测量和主要结果
在离体灌注的人肺中,CFH 在 2 小时内使肺通透性增加,与对照肺相比(12% vs. 基线时肺重量增加 2%,P=0.03)。用 Evans 蓝染料标记的白蛋白在气腔中的 4.8 倍增加证实了血管通透性增加。APAP 预处理可防止肺重量增加(P=0.06 与 CFH 相比)。在人肺微血管内皮细胞中,CFH 增加了单层通透性(P=0.03 与对照相比),APAP 减弱了 CFH 的作用(P=0.045 与 CFH 相比)。
结论
循环 CFH 增加离体灌注人肺的血管通透性和肺微血管内皮细胞的细胞旁通透性。这些作用可能解释了血浆 CFH 水平与 PGD 之间的关联。血红素还原剂 APAP 减弱了 CFH 的作用,值得进一步探索作为预防 PGD 的潜在治疗方法。
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