Gibbings Derrick J, Ciaudo Constance, Erhardt Mathieu, Voinnet Olivier
IBMP-CNRS, UPR Université de Strasbourg, France.
Nat Cell Biol. 2009 Sep;11(9):1143-9. doi: 10.1038/ncb1929. Epub 2009 Aug 16.
In animals, P-bodies or GW-bodies appear to cause the congregation of proteins involved in microRNA (miRNA)-mediated post-transcriptional silencing. The localization of P-bodies does not overlap with that of known organelles and are thus considered independent of lipid bilayers. Nonetheless, an miRNA effector protein, argonaute 2 (AGO2), was initially identified as membrane-associated, and some miRNAs have been found in secreted vesicles (exosomes) that derive from endo-lysosomal compartments called multivesicular bodies (MVBs). Proteins can be sorted in a ubiquitin-dependent manner into MVBs by three heteromeric subcomplexes, collectively termed ESCRT (endosomal sorting complex required for transport), to be further secreted in exosomes and/or degraded by the lysosome. Here we show that GW-bodies containing GW182 and AGO2, two main components of the RNA-induced silencing complex (RISC), are distinct from P-bodies due to their congregation with endosomes and MVBs. Moreover, miRNAs and miRNA-repressible mRNAs are enriched at these cellular membranes, suggesting that endosomes and/or MVBs are sites of miRNA-loaded RISC (miRISC) accumulation and, possibly, action. We further show that purified exosome-like vesicles secreted by MVBs are considerably enriched in GW182, but not P-body components, AGO2 or miRNA-repressible mRNA. Moreover, cells depleted of some ESCRT components show compromised miRNA-mediated gene silencing and over-accumulate GW182, which associates with ubiquitylated proteins. Therefore, GW182, possibly in association with a fraction of miRNA-loaded AGO2, is sorted into MVBs for secretion and/or lysosomal degradation. We propose that this process promotes continuous assembly or disassembly of membrane-associated miRISCs, which is possibly required for miRNA loading or target recognition and subsequent silencing.
在动物中,P小体或GW小体似乎会导致参与微小RNA(miRNA)介导的转录后沉默的蛋白质聚集。P小体的定位与已知细胞器的定位不重叠,因此被认为独立于脂质双层。尽管如此,一种miRNA效应蛋白AGO2最初被鉴定为与膜相关,并且在源自称为多囊泡体(MVB)的内溶酶体区室的分泌囊泡(外泌体)中发现了一些miRNA。蛋白质可以通过三种异源三聚体亚复合物以泛素依赖性方式分选到MVB中,这些亚复合物统称为ESCRT(运输所需的内体分选复合物),以便进一步在外泌体中分泌和/或被溶酶体降解。在这里,我们表明,含有GW182和AGO2(RNA诱导沉默复合物(RISC)的两个主要成分)的GW小体与P小体不同,因为它们与内体和MVB聚集在一起。此外,miRNA和miRNA可抑制的mRNA在这些细胞膜上富集,这表明内体和/或MVB是加载miRNA的RISC(miRISC)积累以及可能发挥作用的部位。我们进一步表明,MVB分泌的纯化的外泌体样囊泡中GW182显著富集,但不含有P小体成分、AGO2或miRNA可抑制的mRNA。此外,一些ESCRT成分耗尽的细胞显示出miRNA介导的基因沉默受损,并且GW182过度积累,其与泛素化蛋白相关联。因此,GW182可能与一部分加载miRNA的AGO2相关联,被分选到MVB中进行分泌和/或溶酶体降解。我们提出,这个过程促进了与膜相关的miRISC的持续组装或拆卸,这可能是miRNA加载或靶标识别以及随后的沉默所必需的。
