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Low Cytochrome Oxidase 1 Links Mitochondrial Dysfunction to Atherosclerosis in Mice and Pigs.低细胞色素氧化酶1将线粒体功能障碍与小鼠和猪的动脉粥样硬化联系起来。
PLoS One. 2017 Jan 25;12(1):e0170307. doi: 10.1371/journal.pone.0170307. eCollection 2017.
2
Mechanisms of Organ Injury and Repair by Macrophages.巨噬细胞介导的器官损伤与修复机制
Annu Rev Physiol. 2017 Feb 10;79:593-617. doi: 10.1146/annurev-physiol-022516-034356. Epub 2016 Dec 7.
3
Hypoxic regulation of osteoclast differentiation and bone resorption activity.破骨细胞分化和骨吸收活性的缺氧调节
Hypoxia (Auckl). 2015 Nov 11;3:73-82. doi: 10.2147/HP.S95960. eCollection 2015.
4
Defects in cytochrome c oxidase expression induce a metabolic shift to glycolysis and carcinogenesis.细胞色素c氧化酶表达缺陷会导致代谢转变为糖酵解并引发癌症。
Genom Data. 2015 Aug 14;6:99-107. doi: 10.1016/j.gdata.2015.07.031. eCollection 2015 Dec.
5
Disruption of cytochrome c oxidase function induces the Warburg effect and metabolic reprogramming.细胞色素c氧化酶功能的破坏会诱导瓦伯格效应和代谢重编程。
Oncogene. 2016 Mar 24;35(12):1585-95. doi: 10.1038/onc.2015.227. Epub 2015 Jul 6.
6
A Novel Small-Molecule Inhibitor Targeting the IL-6 Receptor β Subunit, Glycoprotein 130.一种靶向白细胞介素-6受体β亚基(糖蛋白130)的新型小分子抑制剂。
J Immunol. 2015 Jul 1;195(1):237-45. doi: 10.4049/jimmunol.1402908. Epub 2015 May 29.
7
The Human Mitochondrial DNA Depletion Syndrome Gene MPV17 Encodes a Non-selective Channel That Modulates Membrane Potential.人类线粒体DNA耗竭综合征基因MPV17编码一种调节膜电位的非选择性通道。
J Biol Chem. 2015 May 29;290(22):13840-61. doi: 10.1074/jbc.M114.608083. Epub 2015 Apr 10.
8
Enhanced osteoclastogenesis by mitochondrial retrograde signaling through transcriptional activation of the cathepsin K gene.通过组织蛋白酶K基因的转录激活,线粒体逆行信号增强破骨细胞生成。
Ann N Y Acad Sci. 2016 Jan;1364(1):52-61. doi: 10.1111/nyas.12709. Epub 2015 Mar 18.
9
Macrophage cytokines: involvement in immunity and infectious diseases.巨噬细胞细胞因子:在免疫和传染病中的作用。
Front Immunol. 2014 Oct 7;5:491. doi: 10.3389/fimmu.2014.00491. eCollection 2014.
10
Origin and functions of tissue macrophages.组织巨噬细胞的起源与功能。
Immunity. 2014 Jul 17;41(1):21-35. doi: 10.1016/j.immuni.2014.06.013.

细胞色素 c 氧化酶功能障碍增强巨噬细胞的吞噬功能和破骨细胞形成。

Cytochrome c oxidase dysfunction enhances phagocytic function and osteoclast formation in macrophages.

机构信息

Department of Biomedical Sciences, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, Pennsylvania, USA.

The Mount Sinai Bone Program, Department of Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA.

出版信息

FASEB J. 2019 Aug;33(8):9167-9181. doi: 10.1096/fj.201900010RR. Epub 2019 May 7.

DOI:10.1096/fj.201900010RR
PMID:31063702
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6662975/
Abstract

The mitochondria-to-nucleus retrograde signaling (MtRS) pathway aids in cellular adaptation to stress. We earlier reported that the Ca- and calcineurin-dependent MtRS induces macrophage differentiation to bone-resorbing osteoclasts. However, mechanisms through which macrophages sense and respond to cellular stress remain unclear. Here, we induced mitochondrial stress in macrophages by knockdown (KD) of subunits IVi1 or Vb of cytochrome c oxidase (CcO). Whereas both IVi1 and Vb KD impair CcO activity, IVi1 KD cells produced higher levels of cellular and mitochondrial reactive oxygen species with increased glycolysis. Additionally, IVi1 KD induced the activation of MtRS factors NF-κB, NFAT2, and C/EBPδ as well as inflammatory cytokines, NOS 2, increased phagocytic activity, and a greater osteoclast differentiation potential at suboptimal RANK-L concentrations. The osteoclastogenesis in IVi1 KD cells was reversed fully with an IL-6 inhibitor LMT-28, whereas there was minimal rescue of the enhanced phagocytosis in these cells. In agreement with our findings in cultured macrophages, primary bone marrow-derived macrophages from MPV17 mice, a model for mitochondrial dysfunction, also showed higher propensity for osteoclast formation. This is the first report showing that CcO dysfunction affects inflammatory pathways, phagocytic function, and osteoclastogenesis.-Angireddy, R., Kazmi, H. R., Srinivasan, S., Sun, L., Iqbal, J., Fuchs, S. Y., Guha, M., Kijima, T., Yuen, T., Zaidi, M., Avadhani, N. G. Cytochrome c oxidase dysfunction enhances phagocytic function and osteoclast formation in macrophages.

摘要

线粒体到细胞核逆行信号(MtRS)途径有助于细胞适应应激。我们之前报道过,钙和钙调神经磷酸酶依赖性 MtRS 诱导巨噬细胞分化为骨吸收破骨细胞。然而,巨噬细胞感知和应对细胞应激的机制尚不清楚。在这里,我们通过敲低(KD)细胞色素 c 氧化酶(CcO)的亚基 IVi1 或 Vb 诱导巨噬细胞线粒体应激。虽然 IVi1 和 Vb KD 都损害了 CcO 的活性,但 IVi1 KD 细胞产生了更高水平的细胞和线粒体活性氧,糖酵解增加。此外,IVi1 KD 诱导了 MtRS 因子 NF-κB、NFAT2 和 C/EBPδ 的激活以及炎症细胞因子、NOS2 的增加、吞噬活性的增加和在低浓度 RANK-L 下更强的破骨细胞分化潜能。用白细胞介素 6 抑制剂 LMT-28 完全逆转了 IVi1 KD 细胞的破骨细胞发生,而这些细胞的吞噬作用增强则只有很小的恢复。与我们在培养的巨噬细胞中发现的结果一致,线粒体功能障碍模型 MPV17 小鼠的原代骨髓来源巨噬细胞也显示出更高的破骨细胞形成倾向。这是第一项表明 CcO 功能障碍影响炎症途径、吞噬功能和破骨细胞形成的报告。