Flaxseed Mitigates Acute Oxidative Lung Damage in a Mouse Model of Repeated Radiation and Hyperoxia Exposure Associated with Space Exploration.

Journal of pulmonary & respiratory medicine Pub Date : 2014-01-01 DOI:10.4172/2161-105X.1000215

Ralph A Pietrofesa, Charalambos C Solomides, Melpo Christofidou-Solomidou

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引用次数: 12

Abstract

Background: Spaceflight missions may require crewmembers to conduct extravehicular activities (EVA). Pre-breathe protocols in preparation for an EVA entail 100% hyperoxia exposure that may last for a few hours and be repeated 2-3 times weekly. Each EVA is associated with additional challenges such as low levels of total body cosmic/galactic radiation exposure that may present a threat to crewmember health. We have developed a mouse model of total body radiation and hyperoxia exposure and identified acute damage of lung tissues. In the current study we evaluated the usefulness of dietary flaxseed (FS) as a countermeasure agent for such double-hit exposures.

Methods: We evaluated lung tissue changes 2 weeks post-initiation of exposure challenges. Mouse cohorts (n=5/group) were pre-fed diets containing either 0% FS or 10% FS for 3 weeks and exposed to: a) normoxia (Untreated); b) >95% O₂ (O₂); c) 0.25Gy single fraction gamma radiation (IR); or d) a combination of O₂ and IR (O₂+IR) 3 times per week for 2 consecutive weeks, where 8-hour hyperoxia treatments were spanned by normoxic intervals.

Results: At 2 weeks post challenge, while control-diet fed mice developed significant lung injury and inflammation across all challenges, FS protected lung tissues by decreasing bronchoalveolar lavage fluid (BALF) neutrophils (p<0.003) and protein levels, oxidative tissue damage, as determined by levels of malondialdehyde (MDA) (p<0.008) and nitrosative stress as determined by nitrite levels. Lung hydroxyproline levels, a measure of lung fibrosis, were significantly elevated in mice fed 0% FS (p<0.01) and exposed to hyperoxia/radiation or the combination treatment, but not in FS-fed mice. FS also decreased levels of a pro-inflammatory, pro-fibrogenic cytokine (TGF-β1) gene expression levels in lung.

Conclusion: Flaxseed mitigated adverse effects in lung of repeat exposures to radiation/hyperoxia. This data will provide useful information in the design of countermeasures to early tissue oxidative damage associated with space exploration.

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亚麻籽减轻与太空探索相关的重复辐射和高氧暴露小鼠模型的急性氧化性肺损伤。

背景:航天飞行任务可能需要机组人员进行舱外活动(EVA)。为EVA做准备的呼吸前方案需要100%的高氧暴露，可能持续几个小时，每周重复2-3次。每次舱外活动都伴随着额外的挑战，例如可能对机组人员健康构成威胁的低水平的全身宇宙/银河辐射暴露。我们建立了一个全身辐射和高氧暴露的小鼠模型，并确定了肺组织的急性损伤。在目前的研究中，我们评估了膳食亚麻籽(FS)作为这种双重暴露的对策剂的有效性。方法:我们评估暴露挑战开始后2周的肺组织变化。小鼠队列(n=5/组)预先喂食含有0% FS或10% FS的饲料3周，并暴露于:a)正常缺氧(未处理);b) >95% O2 (O2);c) 0.25Gy单次γ辐射(IR);或d) O2+IR联合治疗(O2+IR)，每周3次，连续2周，其中8小时的高氧治疗间隔为常氧。结果:在刺激后2周，虽然对照组小鼠在所有刺激中都出现了明显的肺损伤和炎症，但FS通过减少支气管肺泡灌洗液(BALF)中性粒细胞来保护肺组织(结论:亚麻籽减轻了重复暴露于辐射/高氧的肺部的不良反应)。这些数据将为设计与太空探索相关的早期组织氧化损伤的对策提供有用的信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of pulmonary & respiratory medicine

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