VIB-UGent Center for Inflammation Research, Ghent, Belgium.
Department of Biomedical Molecular Biology, Ghent University, Ghent, Belgium.
Nat Rev Immunol. 2024 Apr;24(4):235-249. doi: 10.1038/s41577-023-00940-3. Epub 2023 Sep 26.
Recent progress in human and mouse genetics has transformed our understanding of the molecular mechanisms by which recognition of self double-stranded RNA (self-dsRNA) causes immunopathology. Novel mouse models recapitulate loss-of-function mutations in the RNA editing enzyme ADAR1 that are found in patients with Aicardi-Goutières syndrome (AGS) - a monogenic inflammatory disease associated with increased levels of type I interferon. Extensive analyses of the genotype-phenotype relationships in these mice have now firmly established a causal relationship between increased intracellular concentrations of endogenous immunostimulatory dsRNA and type I interferon-driven immunopathology. Activation of the dsRNA-specific immune sensor MDA5 perpetuates the overproduction of type I interferons, and chronic engagement of the interferon-inducible innate immune receptors PKR and ZBP1 by dsRNA drives immunopathology by activating an integrated stress response or by inducing excessive cell death. Biochemical and genetic data support a role for the p150 isoform of ADAR1 in the cytosol in suppressing the spontaneous, pathological response to self-dsRNA.
近年来,人类和小鼠遗传学的进展改变了我们对自身双链 RNA(self-dsRNA)识别导致免疫病理学的分子机制的理解。新型小鼠模型重现了 Aicardi-Goutières 综合征(AGS)患者中 RNA 编辑酶 ADAR1 的功能丧失突变,AGS 是一种与 I 型干扰素水平升高相关的单基因炎症性疾病。对这些小鼠的基因型-表型关系的广泛分析现在已经确定,细胞内内源性免疫刺激性 dsRNA 浓度的增加与 I 型干扰素驱动的免疫病理学之间存在因果关系。dsRNA 特异性免疫传感器 MDA5 的激活会导致 I 型干扰素的过度产生,dsRNA 通过激活整合应激反应或诱导过度细胞死亡,持续激活干扰素诱导的先天免疫受体 PKR 和 ZBP1,从而导致免疫病理学。生化和遗传数据支持 ADAR1 的 p150 同工型在细胞质中抑制自身 dsRNA 的自发、病理性反应的作用。
