肌肉生成的脑源性神经营养因子缺乏会通过活性氧介导的坏死和热解作用引起炎性肌病。

IF 10.7 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Brian Pak Shing Pang, Elsie Chit Yu Iu, Miaojia Hang, Wing Suen Chan, Margaret Chui Ling Tse, Connie Tsz Ying Yeung, Mingfu Wang, Parco Ming Fai Siu, Chi Wai Lee, Keqiang Ye, Ho So, Chi Bun Chan
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引用次数: 0

摘要

特发性炎症性肌病(俗称肌炎)是一组与免疫相关的疾病,以肌肉损伤、虚弱和疲劳为特征,病因不明。虽然人们普遍认为先天性免疫过度激活是肌炎发病的原因之一,但引发和维持肌炎患者高免疫反应的机制仍不清楚。本研究旨在检测脑源性神经营养因子(BDNF)缺乏本身是否足以导致肌炎,并确定其潜在机制。我们发现,消减骨骼肌中的 BDNF 生成足以引发小鼠肌炎的发生。肌肉特异性 Bdnf 基因敲除(MBKO)小鼠表现出广泛的肌细胞坏死、单核细胞浸润和噬肌细胞增多。与这些损伤相关的是,MBKO 小鼠肌肉中白细胞介素(IL)23、IL-1β、IL-18 和肿瘤坏死因子 α(TNFα)等促炎细胞因子的分泌增加。在 MBKO 小鼠体内还发现了肌浆完整性的破坏,这是坏死凋亡刽子手混合系激酶结构域样蛋白(MLKL)和热凋亡刽子手加斯德明 D(GSDMD)激活的结果。从机理上讲,减少肌小管中的 BDNF 合成会增强线粒体活性氧(mtROS)的积累,从而使细胞对 TNFα 诱导的受体相互作用蛋白激酶(RIPs)活化敏感,并促进含 NLR 家族 pyrin domain containing 3(NLRP3)的炎性小体的形成。通过清除mtROS、抑制GSDMD的活性或抑制受体相互作用激酶3(RIP3),可缓解BDNF缺乏诱导的细胞死亡。同样,补充 BDNF 模拟物、抑制 RIP3 活性、增加细胞内抗氧化剂或增强有丝分裂吞噬作用,都能改善 MBKO 小鼠的肌病并增强其肌肉力量。总之,我们的研究表明,小鼠肌肉中的 BDNF 生成不足会通过增强肌纤维中的氧化应激、坏死和裂解而导致肌炎病理特征的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deficiency of muscle-generated brain-derived neurotrophic factor causes inflammatory myopathy through reactive oxygen species-mediated necroptosis and pyroptosis.

Idiopathic inflammatory myopathy (commonly known as myositis) is a group of immune-related diseases characterized by muscle damage, weakness, and fatigue with unknown causes. Although overactivated innate immunity is a widely believed cause of myositis onset, the mechanism that provokes and maintains a high immune response in myositis patients is still unclear. This study aims to test if brain-derived neurotrophic factor (BDNF) deficiency per se is sufficient to cause myositis and determine its underlying mechanism. We found that ablating BDNF production in skeletal muscle is sufficient to trigger myositis development in mice. Muscle-specific Bdnf knockout (MBKO) mice displayed extensive myocyte necrosis, mononuclear cell infiltration, and myophagocytosis. In association with these damages, elevated production of pro-inflammatory cytokines such as interleukin (IL) 23, IL-1β, IL-18, and tumor necrosis factor α (TNFα) was found in the muscle of MBKO mice. Disruption of sarcolemma integrity was also detected in MBKO mice, which is a result of necroptosis executioner Mixed lineage kinase domain-like protein (MLKL) and pyroptosis executioner Gasdermin D (GSDMD) activation. Mechanistically, diminishing BDNF synthesis in myotubes enhances the accumulation of mitochondrial reactive oxygen species (mtROS), which sensitizes the cells towards TNFα-induced receptor-interacting protein kinase (RIPs) activation and promotes the formation of NLR family pyrin domain containing 3 (NLRP3)-containing inflammasome. BDNF deficiency-induced cell death could be alleviated by scavenging mtROS, suppressing the activity of GSDMD, or inhibiting receptor-interacting kinase 3 (RIP3). Similarly, supplementation of BDNF mimetics, suppression of RIP3 activity, increasing the intramyocellular antioxidant, or enhancing mitophagy ameliorated the myopathies of MBKO mice and improved their muscle strength. Together, our study demonstrates that insufficient BDNF production in mouse muscle causes the development of pathological features of myositis via enhancing oxidative stress, necroptosis, and pyroptosis in myofibers.

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来源期刊
Redox Biology
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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