Aerosol Delivery of a Novel Recombinant Modified Superoxide Dismutase Protein Reduces Oxidant Injury and Attenuates Escherichia coli Induced Lung Injury in Rats.

IF 2 4区医学 Q3 RESPIRATORY SYSTEM Journal of Aerosol Medicine and Pulmonary Drug Delivery Pub Date : 2023-10-01 Epub Date: 2023-08-28 DOI:10.1089/jamp.2022.0069

Sean D McCarthy, Maura A Tilbury, Claire H Masterson, Ronan MacLoughlin, Héctor E González, John G Laffey, J Gerard Wall, Daniel O'Toole

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Abstract

Background: Acute respiratory distress syndrome (ARDS) is a life-threatening respiratory failure syndrome with diverse etiologies characterized by increased permeability of alveolar-capillary membranes, pulmonary edema, and acute onset hypoxemia. During the ARDS acute phase, neutrophil infiltration into the alveolar space results in uncontrolled release of reactive oxygen species (ROS) and proteases, overwhelming antioxidant defenses and causing alveolar epithelial and lung endothelial injury. Objectives: To investigate the therapeutic potential of a novel recombinant human Cu-Zn-superoxide dismutase (SOD) fusion protein in protecting against ROS injury and for aerosolized SOD delivery to treat Escherichia coli induced ARDS. Methods: Fusion proteins incorporating human Cu-Zn-SOD (hSOD1), with (pep1-hSOD1-his) and without (hSOD1-his) a fused hyaluronic acid-binding peptide, were expressed in E. coli. Purified proteins were evaluated in in vitro assays with human bronchial epithelial cells and through aerosolized delivery to the lung of an E. coli-induced ARDS rat model. Results: SOD proteins exhibited high SOD activity in vitro and protected bronchial epithelial cells from oxidative damage. hSOD1-his and pep1-hSOD1-his retained SOD activity postnebulization and exhibited no adverse effects in the rat. Pep1-hSOD1-his administered through instillation or nebulization to the lung of an E. coli-induced pneumonia rat improved arterial oxygenation and lactate levels compared to vehicle after 48 hours. Static lung compliance was improved when the pep1-hSOD1-his protein was delivered by instillation. White cell infiltration to the lung was significantly reduced by aerosolized delivery of protein, and reduction of cytokine-induced neutrophil chemoattractant-1, interferon-gamma, and interleukin 6 pro-inflammatory cytokine concentrations in bronchoalveolar lavage was observed. Conclusions: Aerosol delivery of a novel recombinant modified SOD protein reduces oxidant injury and attenuates E. coli induced lung injury in rats. The results provide a strong basis for further investigation of the therapeutic potential of hSOD1 in the treatment of ARDS.

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气溶胶递送一种新型重组修饰的超氧化物歧化酶蛋白可减少氧化损伤并减轻大肠杆菌诱导的大鼠肺损伤。

背景：急性呼吸窘迫综合征（ARDS）是一种危及生命的呼吸衰竭综合征，病因多种多样，其特征是肺泡毛细血管膜通透性增加、肺水肿和急性低氧血症。在ARDS急性期，中性粒细胞浸润肺泡间隙导致活性氧（ROS）和蛋白酶的不受控制的释放，压倒抗氧化防御，并导致肺泡上皮和肺内皮损伤。目的：研究一种新型重组人Cu-Zn超氧化物歧化酶（SOD）融合蛋白在保护ROS损伤和雾化输送SOD治疗大肠杆菌诱导的ARDS方面的治疗潜力。方法：在大肠杆菌中表达含有人Cu-Zn-SOD（hSOD1）、含有（pep1-hSOD1-his）和不含有（hSOD1-hys）的融合透明质酸结合肽的融合蛋白。纯化的蛋白质在用人支气管上皮细胞进行的体外测定中以及通过向大肠杆菌诱导的ARDS大鼠模型的肺部雾化递送来评估。结果：SOD蛋白在体外具有较高的SOD活性，可保护支气管上皮细胞免受氧化损伤。hSOD1-his和pep1-hSOD1-his在雾化后保持了SOD活性，并且在大鼠中没有表现出不良反应。48小时后，通过向大肠杆菌诱导的肺炎大鼠的肺滴注或雾化施用Pep1-hSOD1-h与载体相比改善了动脉氧合和乳酸水平。当通过滴注递送pep1-hSOD1-his蛋白时，静态肺顺应性得到改善。雾化输送蛋白质显著减少了白细胞对肺部的浸润，并观察到支气管肺泡灌洗中细胞因子诱导的中性粒细胞趋化因子-1、干扰素γ和白细胞介素6促炎细胞因子浓度的降低。结论：气溶胶递送一种新型重组修饰SOD蛋白可减少氧化损伤，减轻大肠杆菌诱导的大鼠肺损伤。该结果为进一步研究hSOD1在治疗ARDS中的治疗潜力提供了有力的基础。

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来源期刊

Journal of Aerosol Medicine and Pulmonary Drug Delivery 医学-呼吸系统

CiteScore

6.70

自引率

2.90%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Aerosol Medicine and Pulmonary Drug Delivery is the only peer-reviewed journal delivering innovative, authoritative coverage of the health effects of inhaled aerosols and delivery of drugs through the pulmonary system. The Journal is a forum for leading experts, addressing novel topics such as aerosolized chemotherapy, aerosolized vaccines, methods to determine toxicities, and delivery of aerosolized drugs in the intubated patient. Journal of Aerosol Medicine and Pulmonary Drug Delivery coverage includes: Pulmonary drug delivery Airway reactivity and asthma treatment Inhalation of particles and gases in the respiratory tract Toxic effects of inhaled agents Aerosols as tools for studying basic physiologic phenomena.