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本文引用的文献

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Transient hypoxia stimulates mitochondrial biogenesis in brain subcortex by a neuronal nitric oxide synthase-dependent mechanism.短暂性缺氧通过神经元型一氧化氮合酶依赖性机制刺激大脑皮层下区域的线粒体生物合成。
J Neurosci. 2008 Feb 27;28(9):2015-24. doi: 10.1523/JNEUROSCI.5654-07.2008.
2
The CO/HO system reverses inhibition of mitochondrial biogenesis and prevents murine doxorubicin cardiomyopathy.CO/HO系统可逆转线粒体生物合成的抑制作用,并预防小鼠阿霉素诱导的心肌病。
J Clin Invest. 2007 Dec;117(12):3730-41. doi: 10.1172/JCI32967.
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Structural biology of the LPS recognition.脂多糖识别的结构生物学
Int J Med Microbiol. 2007 Sep;297(5):353-63. doi: 10.1016/j.ijmm.2007.04.001. Epub 2007 May 3.
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Nitric oxide and mitochondrial biogenesis.一氧化氮与线粒体生物合成
J Cell Sci. 2006 Jul 15;119(Pt 14):2855-62. doi: 10.1242/jcs.03062.
5
MyD88 and NOS2 are essential for toll-like receptor 4-mediated survival effect in cardiomyocytes.髓样分化因子88(MyD88)和一氧化氮合酶2(NOS2)对于Toll样受体4介导的心肌细胞存活效应至关重要。
Am J Physiol Heart Circ Physiol. 2006 Oct;291(4):H1900-9. doi: 10.1152/ajpheart.00112.2006. Epub 2006 Apr 28.
6
Toll-like receptor 4, nitric oxide, and myocardial depression in endotoxemia.Toll样受体4、一氧化氮与内毒素血症中的心肌抑制
Shock. 2006 Jan;25(1):43-9. doi: 10.1097/01.shk.0000196498.57306.a6.
7
Mitochondrial dysfunction in septic shock and multiple organ dysfunction syndrome.脓毒症休克和多器官功能障碍综合征中的线粒体功能障碍
Mitochondrion. 2004 Sep;4(5-6):729-41. doi: 10.1016/j.mito.2004.07.023. Epub 2004 Oct 2.
8
Nitric oxide and mitochondrial biogenesis: a key to long-term regulation of cellular metabolism.一氧化氮与线粒体生物合成:细胞代谢长期调节的关键
Comp Biochem Physiol A Mol Integr Physiol. 2005 Oct;142(2):102-10. doi: 10.1016/j.cbpb.2005.04.022. Epub 2005 Aug 8.
9
Toll-like receptor 4 mediates mitochondrial DNA damage and biogenic responses after heat-inactivated E. coli.Toll样受体4介导热灭活大肠杆菌后的线粒体DNA损伤及生物反应。
FASEB J. 2005 Sep;19(11):1531-3. doi: 10.1096/fj.04-3500fje. Epub 2005 Jul 1.
10
Inhibition of cell proliferation by bacterial lipopolysaccharides in TLR4-positive epithelial cells: independence of nitric oxide and cytokine release.细菌脂多糖对TLR4阳性上皮细胞增殖的抑制作用:一氧化氮和细胞因子释放的独立性
J Invest Dermatol. 2005 Mar;124(3):553-61. doi: 10.1111/j.0022-202X.2004.23598.x.

内毒素血症后,一氧化氮合酶-2的诱导可优化心脏线粒体生物合成。

Nitric oxide synthase-2 induction optimizes cardiac mitochondrial biogenesis after endotoxemia.

作者信息

Reynolds Crystal M, Suliman Hagir B, Hollingsworth John W, Welty-Wolf Karen E, Carraway Martha Sue, Piantadosi Claude A

机构信息

Department of Anesthesiology, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Free Radic Biol Med. 2009 Mar 1;46(5):564-72. doi: 10.1016/j.freeradbiomed.2008.11.007. Epub 2008 Nov 27.

DOI:10.1016/j.freeradbiomed.2008.11.007
PMID:19073249
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2666005/
Abstract

Mitochondrial biogenesis protects metabolism from mitochondrial dysfunction produced by activation of innate immunity by lipopolysaccharide (LPS) or other bacterial products. Here we tested the hypothesis in mouse heart that activation of toll-like receptor-4 (TLR4), which induces early-phase genes that damage mitochondria, also activates mitochondrial biogenesis through induction of nitric oxide synthase (NOS2). We compared three strains of mice: wild type (Wt) C57BL/6J, TLR4(-/-), and NOS2(-/-)for cardiac mitochondrial damage and mitochondrial biogenesis by real-time RT-PCR, Western analysis, immunochemistry, and isoform analysis of myosin heavy chain (MHC) after sublethal heat-killed Escherichia coli (HkEC). After HkEC, Wt mice displayed significant myocardial mtDNA depletion along with enhanced TLR4 and NOS2 gene and protein expression that normalized in 72 h. HkEC generated less cytokine stress in TLR4(-/-)and NOS2(-/-)than Wt mice, NOS2(-/-)mice had mtDNA damage comparable to Wt, and both knockout strains failed to restore mtDNA copy number because of mitochondrial transcriptosome dysfunction. Wt mice also showed the largest beta-MHC isoform switch, but MHC recovery lagged in the NOS2(-/-)and TLR4(-/-)strains. The NOS2(-/-)mice also unexpectedly revealed the codependency of TLR4 expression on NOS2. These findings demonstrate the decisive participation of NOS2 induction by TLR4 in optimization of mitochondrial biogenesis and MHC expression after gram-negative challenge.

摘要

线粒体生物合成可保护新陈代谢免受脂多糖(LPS)或其他细菌产物激活先天免疫所产生的线粒体功能障碍的影响。在此,我们在小鼠心脏中验证了一个假设,即诱导损害线粒体的早期基因的Toll样受体4(TLR4)的激活,也通过诱导一氧化氮合酶(NOS2)来激活线粒体生物合成。我们比较了三种小鼠品系:野生型(Wt)C57BL/6J、TLR4基因敲除(-/-)和NOS2基因敲除(-/-)小鼠,通过实时逆转录聚合酶链反应(RT-PCR)、蛋白质免疫印迹分析、免疫化学以及对亚致死剂量热灭活大肠杆菌(HkEC)处理后的小鼠进行肌球蛋白重链(MHC)同工型分析,来检测心脏线粒体损伤和线粒体生物合成情况。给予HkEC后,野生型小鼠出现显著的心肌线粒体DNA消耗,同时TLR4和NOS2基因及蛋白表达增强,并在72小时后恢复正常。与野生型小鼠相比,HkEC在TLR4基因敲除(-/-)和NOS2基因敲除(-/-)小鼠中产生的细胞因子应激较少,NOS2基因敲除(-/-)小鼠的线粒体DNA损伤与野生型相当,并且由于线粒体转录体功能障碍,两种基因敲除品系均未能恢复线粒体DNA拷贝数。野生型小鼠还表现出最大程度的β-MHC同工型转换,但MHC的恢复在NOS2基因敲除(-/-)和TLR4基因敲除(-/-)品系中滞后。NOS2基因敲除(-/-)小鼠还意外地揭示了TLR4表达对NOS2的相互依赖性。这些发现表明,革兰氏阴性菌攻击后,TLR4诱导的NOS2在优化线粒体生物合成和MHC表达中起决定性作用。