Umesh Bhattarai , Rui Xu , Xiaochen He , Lihong Pan , Ziru Niu , Dongzhi Wang , Heng Zeng , Jian-Xiong Chen , John S. Clemmer , Yingjie Chen
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High Se diet had no detectable effect on LV structure and function in mice under control conditions, but high Se diet significantly protected mice from TAC-induced LV hypertrophy, dysfunction, increase of lung weight, and right ventricular hypertrophy. As compared with mice treated with normal Se diet, high Se diet also reduced TAC-induced LV cardiomyocyte hypertrophy, fibrosis, leukocyte infiltration, pulmonary inflammation, pulmonary fibrosis, and pulmonary micro-vessel muscularization. In addition, high Se diet significantly ameliorated TAC-induced accumulation and activation of pulmonary F4/80<sup>+</sup> macrophages, and activation of dendritic cells. Interestingly, high Se diet also significantly attenuated TAC-induced activation of pulmonary CD4<sup>+</sup> and CD8<sup>+</sup> T cells. Moreover, we found that TAC caused a significant increase in cardiac and pulmonary ROS production, increases of 4-hydroxynonenal (4-HNE) and 3-nitrotyrosine (3-NT), as well as a compensatory increases of LV glutathione peroxidase 1 (GPX1) and 4 (GPX4) in mice fed with normal Se diet. Above changes were diminished in mice fed with high Se diet. 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引用次数: 0
摘要
硒(Se)缺乏与克山病的发生有关,克山病是一种与大量心脏免疫细胞浸润有关的心肌病,可导致心力衰竭(HF)。本研究的目的是确定高Se饮食是否能减轻收缩期超负荷引起的心肺炎症和HF。简而言之,研究测定了雄性小鼠在高Se饮食或普通Se饮食喂养下,横向主动脉收缩(TAC)诱导的心肺氧化应激、炎症、左心室(LV)功能障碍和肺重塑。在对照条件下,高Se饮食对小鼠左心室的结构和功能没有检测到影响,但高Se饮食能显著保护小鼠免受TAC诱导的左心室肥大、功能障碍、肺重量增加和右心室肥大的影响。与使用普通 Se 饮食的小鼠相比,高 Se 饮食还能减少 TAC 诱导的左心室心肌细胞肥大、纤维化、白细胞浸润、肺部炎症、肺纤维化和肺微血管肌肉化。此外,高Se饮食还能明显改善TAC诱导的肺F4/80+巨噬细胞的聚集和活化,以及树突状细胞的活化。有趣的是,高Se饮食还能明显减轻TAC诱导的肺CD4+和CD8+T细胞的活化。此外,我们还发现 TAC 会导致心脏和肺部 ROS 生成显著增加、4-羟基壬烯醛(4-HNE)和 3-硝基酪氨酸(3-NT)增加,以及正常 Se 饮食小鼠左心室谷胱甘肽过氧化物酶 1(GPX1)和 4(GPX4)的代偿性增加。以上变化在以高Se饮食喂养的小鼠中有所减弱。总之,这些数据表明,高Se饮食能显著减轻收缩压超负荷引起的心脏氧化应激、炎症、HF发展以及随之而来的肺部炎症和重塑。
High selenium diet attenuates pressure overload-induced cardiopulmonary oxidative stress, inflammation, and heart failure
Selenium (Se) deficiency is associated with the development of Keshan disease, a cardiomyopathy associated with massive cardiac immune cell infiltration that can lead to heart failure (HF). The purpose of this study was to determine whether high Se diet can attenuate systolic overload-induced cardiopulmonary inflammation and HF. Briefly, transverse aortic constriction (TAC)-induced cardiopulmonary oxidative stress, inflammation, left ventricular (LV) dysfunction, and pulmonary remodeling were determined in male mice fed with either high Se diet or normal Se diet. High Se diet had no detectable effect on LV structure and function in mice under control conditions, but high Se diet significantly protected mice from TAC-induced LV hypertrophy, dysfunction, increase of lung weight, and right ventricular hypertrophy. As compared with mice treated with normal Se diet, high Se diet also reduced TAC-induced LV cardiomyocyte hypertrophy, fibrosis, leukocyte infiltration, pulmonary inflammation, pulmonary fibrosis, and pulmonary micro-vessel muscularization. In addition, high Se diet significantly ameliorated TAC-induced accumulation and activation of pulmonary F4/80+ macrophages, and activation of dendritic cells. Interestingly, high Se diet also significantly attenuated TAC-induced activation of pulmonary CD4+ and CD8+ T cells. Moreover, we found that TAC caused a significant increase in cardiac and pulmonary ROS production, increases of 4-hydroxynonenal (4-HNE) and 3-nitrotyrosine (3-NT), as well as a compensatory increases of LV glutathione peroxidase 1 (GPX1) and 4 (GPX4) in mice fed with normal Se diet. Above changes were diminished in mice fed with high Se diet. Collectively, these data demonstrated that high Se diet significantly attenuated systolic pressure overload-induced cardiac oxidative stress, inflammation, HF development, and consequent pulmonary inflammation and remodeling.
期刊介绍:
Redox Biology is the official journal of the Society for Redox Biology and Medicine and the Society for Free Radical Research-Europe. It is also affiliated with the International Society for Free Radical Research (SFRRI). This journal serves as a platform for publishing pioneering research, innovative methods, and comprehensive review articles in the field of redox biology, encompassing both health and disease.
Redox Biology welcomes various forms of contributions, including research articles (short or full communications), methods, mini-reviews, and commentaries. Through its diverse range of published content, Redox Biology aims to foster advancements and insights in the understanding of redox biology and its implications.