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Aicardi-Goutières 综合征:来自 RNase H2 敲除小鼠的线索。

Aicardi-Goutières syndrome: clues from the RNase H2 knock-out mouse.

机构信息

Institute of Biochemistry, Christian Albrechts University, Rudolf-Höber-St.1, 24118, Kiel, Germany,

出版信息

J Mol Med (Berl). 2013 Nov;91(11):1235-40. doi: 10.1007/s00109-013-1061-x. Epub 2013 Jun 7.

DOI:10.1007/s00109-013-1061-x
PMID:23744109
Abstract

Ribonuclease H2 (RNase H2) belongs to the family of RNase H enzymes, which process RNA/DNA hybrids. Apart from cleaving the RNA moiety of a plain RNA/DNA hybrid, RNase H2 participates in the removal of single ribonucleotides embedded in a DNA duplex. Mutations in RNase H2 lead to the chronic inflammatory disorder Aicardi-Goutières syndrome (AGS), which has significant phenotypic overlaps with the autoimmune disease systemic lupus erythematosus. RNase H2 knock-out mice are embryonic lethal. Mouse embryos lacking RNase H2 accumulate DNA damage and exhibit a p53-mediated growth arrest commencing at gastrulation. On a molecular level, the knock-out mice reveal that RNase H2 represents an essential DNA repair enzyme, whose main cellular function is the removal of accidentally misincorporated ribonucleotides from genomic DNA. Ribonucleotides strongly accumulate within the genomic DNA of RNase H2-deficient cells, in turn resulting in a massive build-up of DNA damage in these cells. The DNA lesions that arise from misincorporated ribonucleotides constitute the by far most frequent type of naturally occurring DNA damage. AGS-causing mutations have also been found in the genes of the 3'-exonuclease TREX1, the dNTP triphosphatase SAMHD1, as well as the RNA-editing enzyme ADAR1, defining defects in nucleic acid metabolism pathways as a common hallmark of AGS pathology. However, recent evidence gathered from RNase H2 knock-out mice might provide additional insight into the molecular mechanisms underlying AGS development and a potential role of DNA damage as a trigger of autoimmunity is discussed.

摘要

核糖核酸酶 H2(RNase H2)属于核糖核酸酶 H 酶家族,可作用于 RNA/DNA 杂合体。除了能切割单纯的 RNA/DNA 杂合体的 RNA 部分,RNase H2 还参与去除 DNA 双链中嵌入的单个核糖核苷酸。RNase H2 的突变会导致慢性炎症性疾病——Aicardi-Goutières 综合征(AGS),该疾病与自身免疫性疾病系统性红斑狼疮有显著的表型重叠。RNase H2 敲除小鼠是胚胎致死的。缺乏 RNase H2 的小鼠胚胎会积累 DNA 损伤,并在原肠胚形成时表现出 p53 介导的生长停滞。在分子水平上,敲除小鼠表明 RNase H2 是一种必需的 DNA 修复酶,其主要的细胞功能是从基因组 DNA 中去除意外错误掺入的核糖核苷酸。核糖核苷酸在缺乏 RNase H2 的细胞的基因组 DNA 中强烈积累,反过来又导致这些细胞中大量的 DNA 损伤累积。由错误掺入的核糖核苷酸引起的 DNA 损伤是迄今为止最常见的自然发生的 DNA 损伤类型。在 3'-外切酶 TREX1、dNTP 三磷酸酶 SAMHD1 以及 RNA 编辑酶 ADAR1 的基因中也发现了导致 AGS 的突变,这表明核酸代谢途径的缺陷是 AGS 病理的一个共同特征。然而,最近从 RNase H2 敲除小鼠中收集到的证据可能为 AGS 发病机制的分子机制提供了更多的见解,并讨论了 DNA 损伤作为自身免疫触发因素的潜在作用。

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本文引用的文献

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Mutations in ADAR1 cause Aicardi-Goutières syndrome associated with a type I interferon signature.ADAR1 基因突变导致伴有 I 型干扰素特征的 Aicardi-Goutières 综合征。
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SAMHD1 restricts HIV-1 infection in resting CD4(+) T cells.
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Transcription-Replication Collisions-A Series of Unfortunate Events.转录-复制冲突——一系列不幸事件。
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