RNase H2, mutated in Aicardi-Goutieres syndrome, promotes LINE-1 retrotransposition
Benitez-Guijarro, Maria; Lopez-Ruiz, Cesar; Tarnauskait, Zygimante; Murina, Olga; Mohammad, Mahwish Mian; Williams, Thomas C.; Fluteau, Adeline; Sanchez, Laura; Vilar-Astasio, Raquel; Garcia-Canadas, Marta; Cano, David; Kempen, Marie-Jeanne H. C.; Sanchez-
Publicación: EMBO JOURNAL
2018
VL / 37 - BP / - EP /
abstract
Long INterspersed Element class 1 (LINE-1) elements are a type of abundant retrotransposons active in mammalian genomes. An average human genome contains similar to 100 retrotransposition-competent LINE-1s, whose activity is influenced by the combined action of cellular repressors and activators. TREX1, SAMHD1 and ADAR1 are known LINE-1 repressors and when mutated cause the autoinflammatory disorder Aicardi-Goutieres syndrome (AGS). Mutations in RNase H2 are the most common cause of AGS, and its activity was proposed to similarly control LINE-1 retrotransposition. It has therefore been suggested that increased LINE-1 activity may be the cause of aberrant innate immune activation in AGS. Here, we establish that, contrary to expectations, RNase H2 is required for efficient LINE-1 retrotransposition. As RNase H1 overexpression partially rescues the defect in RNase H2 null cells, we propose a model in which RNase H2 degrades the LINE-1 RNA after reverse transcription, allowing retrotransposition to be completed. This also explains how LINE-1 elements can retrotranspose efficiently without their own RNase H activity. Our findings appear to be at odds with LINE-1-derived nucleic acids driving autoinflammation in AGS.
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Molecular Biology & Genetics
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