J Nutr., 2006., Volume 136; Pages 1545-1551.

Dietary Flaxseed Supplementation Ameliorates Inflammation and Oxidative Tissue Damage in Experimental Models of Acute Lung Injury in Mice.

Kinniry, P. Amrani, Y. Vachani, A. Solomides, CC. Arguiri, E. Workman, A.

Key Findings

The lung is a major target of oxidant stress. This study determined if flaxseed (FS) lignans could provide oxygen radical scavenging properties in reducing acute and chronic lung injury. The efficacy of dietary FS supplementation in antioxidant protection of the lung in clinically relevant murine models of pulmonary oxidant stress (hyperoxia, lipopolysaccharide (LPS), and acid aspiration–induced lung damage) were assessed. This study showed that dietary FS can significantly decrease acute lung injury, as well as inflammation-related variables in mouse models of both hyperoxia- and acid aspiration–induced ALI.

ABSTRACT

Flaxseed (FS) is a nutritional supplement with high concentrations of (n-3) fatty acids and lignans that have anti-inflammatory and antioxidant properties. The use of FS in the prevention or treatment of acute lung disease is unknown. In this study, we evaluated diets with high FS content in experimental murine models of acute lung injury and inflammation. The kinetics of lignan accumulation in blood, following 10% FS supplementation, was determined using liquid chromatography tandem mass spectrometry. Mice were fed isocaloric control and 10% FS-supplemented diets for at least 3 wk and challenged by hyperoxia (80% oxygen), intratracheal instillation of lipopolysaccharide, or acid aspiration. Bronchoalveolar lavage was evaluated for white blood cells, neutrophils, and proteins after a 24 h postintratracheal challenge of hydrochloric acid or lipopolysaccharide, or after 6 d of hyperoxia. Lung lipid peroxidation was assessed by tissue malondialdehyde concentrations. The plasma concentrations of the FS lignans, enterodiol and enterolactone, were stable after mice had eaten the diets for 2 wk. Following hyperoxia and acid aspiration, bronchoalveolar lavage neutrophils decreased in FS-supplemented mice (P = 0.012 and P = 0.027, respectively), whereas overall alveolar white blood cell influx tended to be lower (P = 0.11). In contrast, neither lung injury nor inflammation was ameliorated by FS following lipopolysaccharide instillation. Lung malondialdehyde levels were lower in hyperoxic mice than in unchallenged mice (P = 0.0001), and decreased with FS treatment following acid aspiration (P = 0.011). Dietary FS decreased lung inflammation and lipid peroxidation, suggesting a protective role against pro-oxidant-induced tissue damage in vivo.

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