Role of Mitofusin 1 in mediating reactive oxygen species in alveolar macrophages during Streptococcus pneumoniae

IF 10.7 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Redox Biology Pub Date : 2024-08-27 DOI:10.1016/j.redox.2024.103329

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引用次数: 0

Abstract

Alveolar macrophages (AM) are key effectors of the immune response and are essential for host responses to S. pneumoniae. Mitochondria are highly dynamic organelles whose function aids in regulating the cell cycle, innate immunity, autophagy, redox signaling, calcium homeostasis, and mitochondrial quality control in AM. In response to cellular stress, mitochondria can engage in stress-induced mitochondrial hyperfusion (SIMH). The current study aimed to investigate the role of Mfn1 on mitochondrial control of reactive oxygen species (ROS) in AMs and the role of Mfn1 deficiency on immune responses to S. pneumoniae. Compared to Mfn1^FloxCre− controls, there were distinct histological differences in lung tissue collected from Mfn1^{Floxed; CreLysM} mice, with less injury and inflammation observed in mice with Mfn1 deficient myeloid cells. There was a significant decrease in lipid peroxidation and ROS production in Mfn1 deficient AM that was associated with increased superoxide dismutase (SOD) and antioxidant activity. Our findings demonstrate that Mfn1 deficiency in myeloid cells decreased inflammation and lung tissue injury during S. pneumoniae infection.

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丝裂蛋白 1 在肺炎链球菌感染期间介导肺泡巨噬细胞中活性氧的作用

肺泡巨噬细胞（AM）是免疫反应的关键效应器，对于宿主应对肺炎双球菌至关重要。线粒体是高度动态的细胞器，其功能有助于调节细胞周期、先天性免疫、自噬、氧化还原信号、钙平衡和线粒体质量控制。为应对细胞应激，线粒体可参与应激诱导的线粒体超融合（SIMH）。本研究旨在探讨Mfn1对AM线粒体控制活性氧（ROS）的作用，以及Mfn1缺乏对肺炎双球菌免疫反应的作用。与Mfn1FloxCre-对照组相比，从Mfn1Floxed; CreLysM小鼠身上采集的肺组织存在明显的组织学差异，在Mfn1缺乏的髓样细胞小鼠身上观察到的损伤和炎症较少。在Mfn1缺失的AM中，脂质过氧化和ROS的产生明显减少，这与超氧化物歧化酶（SOD）和抗氧化活性的增加有关。我们的研究结果表明，髓系细胞缺乏Mfn1可减少肺炎双球菌感染期间的炎症和肺组织损伤。

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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来源期刊

Redox Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

19.90

自引率

3.50%

发文量

318

审稿时长

25 days

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.

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