末端修饰、序列、长度和 PIWI 蛋白同一性决定 piRNA 的稳定性。

Terminal modification, sequence, length, and PIWI-protein identity determine piRNA stability.

机构信息

RNA Therapeutics Institute and Howard Hughes Medical Institute, University of Massachusetts Medical School, 368 Plantation Street, Worcester, MA 01605, USA.

出版信息

Mol Cell. 2021 Dec 2;81(23):4826-4842.e8. doi: 10.1016/j.molcel.2021.09.012. Epub 2021 Oct 8.

DOI:10.1016/j.molcel.2021.09.012

PMID:34626567

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8642287/

Abstract

In animals, PIWI-interacting RNAs (piRNAs) silence transposons, fight viral infections, and regulate gene expression. piRNA biogenesis concludes with 3' terminal trimming and 2'-O-methylation. Both trimming and methylation influence piRNA stability. Our biochemical data show that multiple mechanisms destabilize unmethylated mouse piRNAs, depending on whether the piRNA 5' or 3' sequence is complementary to a trigger RNA. Unlike target-directed degradation of microRNAs, complementarity-dependent destabilization of piRNAs in mice and flies is blocked by 3' terminal 2'-O-methylation and does not require base pairing to both the piRNA seed and the 3' sequence. In flies, 2'-O-methylation also protects small interfering RNAs (siRNAs) from complementarity-dependent destruction. By contrast, pre-piRNA trimming protects mouse piRNAs from a degradation pathway unaffected by trigger complementarity. In testis lysate and in vivo, internal or 3' terminal uridine- or guanine-rich tracts accelerate pre-piRNA decay. Loss of both trimming and 2'-O-methylation causes the mouse piRNA pathway to collapse, demonstrating that these modifications collaborate to stabilize piRNAs.

摘要

在动物中，PIWI 相互作用 RNA（piRNA）沉默转座子、抵抗病毒感染并调节基因表达。piRNA 的生物发生过程以 3'末端修剪和 2'-O-甲基化结束。修剪和甲基化都会影响 piRNA 的稳定性。我们的生化数据表明，多种机制会使未甲基化的小鼠 piRNA 不稳定，具体取决于 piRNA 的 5'或 3'序列与触发 RNA 是否互补。与靶向降解 microRNA 不同，在小鼠和果蝇中，piRNA 的互补依赖性降解被 3'末端 2'-O-甲基化阻断，并且不需要与 piRNA 种子和 3'序列完全配对。在果蝇中，2'-O-甲基化还能保护小干扰 RNA（siRNA）免受互补依赖性破坏。相比之下，前 piRNA 修剪可保护小鼠 piRNA 免受不依赖触发互补的降解途径的影响。在睾丸裂解物和体内，内部或 3'末端富含尿嘧啶或鸟嘌呤的序列会加速前 piRNA 的降解。修剪和 2'-O-甲基化的缺失都会导致小鼠 piRNA 途径崩溃，这表明这些修饰协同稳定 piRNA。

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