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氧化的 DNA 片段通过 mPTP 和 VDAC 依赖性通道从线粒体中逸出,以激活 NLRP3 炎性体和干扰素信号。

Oxidized DNA fragments exit mitochondria via mPTP- and VDAC-dependent channels to activate NLRP3 inflammasome and interferon signaling.

机构信息

Laboratory of Gene Regulation and Signal Transduction, Department of Pharmacology, School of Medicine, UCSD, La Jolla, CA 92093, USA.

Laboratory of Gene Regulation and Signal Transduction, Department of Pharmacology, School of Medicine, UCSD, La Jolla, CA 92093, USA; Department of Orthopedic Surgery, School of Medicine, UCSD, La Jolla, CA 92093, USA.

出版信息

Immunity. 2022 Aug 9;55(8):1370-1385.e8. doi: 10.1016/j.immuni.2022.06.007. Epub 2022 Jul 13.

DOI:10.1016/j.immuni.2022.06.007
PMID:35835107
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9378606/
Abstract

Mitochondrial DNA (mtDNA) escaping stressed mitochondria provokes inflammation via cGAS-STING pathway activation and, when oxidized (Ox-mtDNA), it binds cytosolic NLRP3, thereby triggering inflammasome activation. However, it is unknown how and in which form Ox-mtDNA exits stressed mitochondria in non-apoptotic macrophages. We found that diverse NLRP3 inflammasome activators rapidly stimulated uniporter-mediated calcium uptake to open mitochondrial permeability transition pores (mPTP) and trigger VDAC oligomerization. This occurred independently of mtDNA or reactive oxygen species, which induce Ox-mtDNA generation. Within mitochondria, Ox-mtDNA was either repaired by DNA glycosylase OGG1 or cleaved by the endonuclease FEN1 to 500-650 bp fragments that exited mitochondria via mPTP- and VDAC-dependent channels to initiate cytosolic NLRP3 inflammasome activation. Ox-mtDNA fragments also activated cGAS-STING signaling and gave rise to pro-inflammatory extracellular DNA. Understanding this process will advance the development of potential treatments for chronic inflammatory diseases, exemplified by FEN1 inhibitors that suppressed interleukin-1β (IL-1β) production and mtDNA release in mice.

摘要

线粒体 DNA(mtDNA)从应激线粒体中逸出,通过 cGAS-STING 通路的激活引发炎症,而当其被氧化(Ox-mtDNA)时,它会与细胞质中的 NLRP3 结合,从而触发炎症小体的激活。然而,尚不清楚 Ox-mtDNA 以何种形式以及以何种形式从非凋亡巨噬细胞中的应激线粒体中逸出。我们发现,多种 NLRP3 炎症小体激活剂迅速刺激单向转运蛋白介导的钙摄取,以打开线粒体通透性转换孔(mPTP)并引发 VDAC 寡聚化。这一过程独立于 mtDNA 或活性氧(ROS)发生,后者诱导 Ox-mtDNA 的产生。在线粒体内部,Ox-mtDNA 要么被 DNA 糖苷酶 OGG1 修复,要么被内切酶 FEN1 切割成 500-650bp 的片段,这些片段通过 mPTP 和 VDAC 依赖性通道逸出线粒体,从而启动细胞质 NLRP3 炎症小体的激活。Ox-mtDNA 片段还激活了 cGAS-STING 信号通路,并产生了促炎的细胞外 DNA。了解这一过程将推进针对慢性炎症性疾病的潜在治疗方法的发展,例如 FEN1 抑制剂,它可以抑制小鼠中白细胞介素 1β(IL-1β)的产生和 mtDNA 的释放。

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