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线粒体 DNA 和 TLR9 驱动 Opa1 缺陷时的肌肉炎症。

Mitochondrial DNA and TLR9 drive muscle inflammation upon Opa1 deficiency.

机构信息

Institute for Research in Biomedicine (IRB Barcelona), Barcelona, Spain.

Departament de Bioquímica i Biomedicina Molecular, Facultat de Biologia, Universitat de Barcelona, Barcelona, Spain.

出版信息

EMBO J. 2018 May 15;37(10). doi: 10.15252/embj.201796553. Epub 2018 Apr 9.

DOI:10.15252/embj.201796553
PMID:29632021
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5978453/
Abstract

Opa1 participates in inner mitochondrial membrane fusion and cristae morphogenesis. Here, we show that muscle-specific Opa1 ablation causes reduced muscle fiber size, dysfunctional mitochondria, enhanced Fgf21, and muscle inflammation characterized by NF-κB activation, and enhanced expression of pro-inflammatory genes. Chronic sodium salicylate treatment ameliorated muscle alterations and reduced the muscle expression of Fgf21. Muscle inflammation was an early event during the progression of the disease and occurred before macrophage infiltration, indicating that it is a primary response to Opa1 deficiency. Moreover, Opa1 repression in muscle cells also resulted in NF-κB activation and inflammation in the absence of necrosis and/or apoptosis, thereby revealing that the activation is a cell-autonomous process and independent of cell death. The effects of Opa1 deficiency on the expression NF-κB target genes and inflammation were absent upon mitochondrial DNA depletion. Under Opa1 deficiency, blockage or repression of TLR9 prevented NF-κB activation and inflammation. Taken together, our results reveal that Opa1 deficiency in muscle causes initial mitochondrial alterations that lead to TLR9 activation, and inflammation, which contributes to enhanced Fgf21 expression and to growth impairment.

摘要

OPA1 参与线粒体内部膜融合和嵴形态发生。在这里,我们表明肌肉特异性 OPA1 缺失会导致肌纤维大小减小、线粒体功能障碍、FGF21 增强以及以 NF-κB 激活为特征的肌肉炎症,并增强促炎基因的表达。慢性水杨酸钠处理改善了肌肉改变并降低了肌肉中 FGF21 的表达。肌肉炎症是疾病进展过程中的早期事件,发生在巨噬细胞浸润之前,表明这是对 OPA1 缺乏的主要反应。此外,肌肉细胞中 OPA1 的抑制也导致 NF-κB 的激活和炎症,而没有坏死和/或细胞凋亡,从而表明该激活是细胞自主的过程,与细胞死亡无关。在线粒体 DNA 耗竭时,OPA1 缺失对 NF-κB 靶基因表达和炎症的影响消失。在 OPA1 缺失的情况下,TLR9 的阻断或抑制可防止 NF-κB 的激活和炎症。总之,我们的结果表明,肌肉中的 OPA1 缺失会导致最初的线粒体改变,从而导致 TLR9 的激活和炎症,这有助于增强 FGF21 的表达和生长受损。

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