中性粒细胞释放的氧化线粒体类核驱动人类狼疮中I型干扰素的产生。

Oxidized mitochondrial nucleoids released by neutrophils drive type I interferon production in human lupus.

作者信息

Caielli Simone, Athale Shruti, Domic Bojana, Murat Elise, Chandra Manjari, Banchereau Romain, Baisch Jeanine, Phelps Kate, Clayton Sandra, Gong Mei, Wright Tracey, Punaro Marilynn, Palucka Karolina, Guiducci Cristiana, Banchereau Jacques, Pascual Virginia

机构信息

Baylor Institute for Immunology Research, Dallas, TX 75204.

Live Cell Imaging Core, University of Texas Southwestern Medical Center, Dallas, TX 75263.

出版信息

J Exp Med. 2016 May 2;213(5):697-713. doi: 10.1084/jem.20151876. Epub 2016 Apr 18.

DOI:10.1084/jem.20151876

PMID:27091841

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4854735/

Abstract

Autoantibodies against nucleic acids and excessive type I interferon (IFN) are hallmarks of human systemic lupus erythematosus (SLE). We previously reported that SLE neutrophils exposed to TLR7 agonist autoantibodies release interferogenic DNA, which we now demonstrate to be of mitochondrial origin. We further show that healthy human neutrophils do not complete mitophagy upon induction of mitochondrial damage. Rather, they extrude mitochondrial components, including DNA (mtDNA), devoid of oxidized (Ox) residues. When mtDNA undergoes oxidation, it is directly routed to lysosomes for degradation. This rerouting requires dissociation from the transcription factor A mitochondria (TFAM), a dual high-mobility group (HMG) protein involved in maintenance and compaction of the mitochondrial genome into nucleoids. Exposure of SLE neutrophils, or healthy IFN-primed neutrophils, to antiribonucleotide protein autoantibodies blocks TFAM phosphorylation, a necessary step for nucleoid dissociation. Consequently, Ox nucleoids accumulate within mitochondria and are eventually extruded as potent interferogenic complexes. In support of the in vivo relevance of this phenomenon, mitochondrial retention of Ox nucleoids is a feature of SLE blood neutrophils, and autoantibodies against Ox mtDNA are present in a fraction of patients. This pathway represents a novel therapeutic target in human SLE.

摘要

针对核酸的自身抗体和过量的I型干扰素（IFN）是人类系统性红斑狼疮（SLE）的标志。我们之前报道过，暴露于TLR7激动剂自身抗体的SLE中性粒细胞会释放干扰性DNA，我们现在证明其来源于线粒体。我们进一步表明，健康人的中性粒细胞在受到线粒体损伤诱导时不会完成线粒体自噬。相反，它们会排出包括不含氧化（Ox）残基的DNA（mtDNA）在内的线粒体成分。当mtDNA发生氧化时，它会直接被输送到溶酶体进行降解。这种重新定向需要与线粒体转录因子A（TFAM）解离，TFAM是一种双重高迁移率族（HMG）蛋白，参与将线粒体基因组维持和压缩成类核。将SLE中性粒细胞或健康的经IFN预处理的中性粒细胞暴露于抗核糖核蛋白自身抗体可阻断TFAM磷酸化，这是类核解离的必要步骤。因此，氧化类核在线粒体内积累，并最终作为有效的干扰性复合物被排出。为支持这一现象在体内的相关性，氧化类核在线粒体中的保留是SLE血液中性粒细胞的一个特征，并且一部分患者体内存在针对氧化mtDNA的自身抗体。该途径代表了人类SLE的一个新的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1dd/4854735/f4edb68c3ab4/JEM_20151876_Fig1.jpg

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中性粒细胞释放的氧化线粒体类核驱动人类狼疮中I型干扰素的产生。

Oxidized mitochondrial nucleoids released by neutrophils drive type I interferon production in human lupus.

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