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HuD-ZBP1 核糖核蛋白复合物通过其 3' 非翻译区富含 AU 的调控元件将 GAP-43 mRNA 定位到轴突中。

A HuD-ZBP1 ribonucleoprotein complex localizes GAP-43 mRNA into axons through its 3' untranslated region AU-rich regulatory element.

机构信息

Nemours Biomedical Research, Alfred I. duPont Hosp. for Children, Wilmington, Delaware, USA.

出版信息

J Neurochem. 2013 Sep;126(6):792-804. doi: 10.1111/jnc.12266. Epub 2013 Apr 30.

DOI:10.1111/jnc.12266
PMID:23586486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3766383/
Abstract

Localized translation of axonal mRNAs contributes to developmental and regenerative axon growth. Although untranslated regions (UTRs) of many different axonal mRNAs appear to drive their localization, there has been no consensus RNA structure responsible for this localization. We recently showed that limited expression of ZBP1 protein restricts axonal localization of both β-actin and GAP-43 mRNAs. β-actin 3'UTR has a defined element for interaction with ZBP1, but GAP-43 mRNA shows no homology to this RNA sequence. Here, we show that an AU-rich regulatory element (ARE) in GAP-43's 3'UTR is necessary and sufficient for its axonal localization. Axonal GAP-43 mRNA levels increase after in vivo injury, and GAP-43 mRNA shows an increased half-life in regenerating axons. GAP-43 mRNA interacts with both HuD and ZBP1, and HuD and ZBP1 co-immunoprecipitate in an RNA-dependent fashion. Reporter mRNA with the GAP-43 ARE competes with endogenous β-actin mRNA for axonal localization and decreases axon length and branching similar to the β-actin 3'UTR competing with endogenous GAP-43 mRNA. Conversely, over-expressing GAP-43 coding sequence with its 3'UTR ARE increases axonal elongation and this effect is lost when just the ARE is deleted from GAP-43's 3'UTR. We have recently found that over-expression of GAP-43 using an axonally targeted construct with the 3'UTRs of GAP-43 promoted elongating growth of axons, while restricting the mRNA to the cell body with the 3'UTR of γ-actin had minimal effect on axon length. In this study, we show that the ARE in GAP-43's 3'UTR is responsible for localization of GAP-43 mRNA into axons and is sufficient for GAP-43 protein's role in elongating axonal growth.

摘要

轴突 mRNA 的局部翻译有助于发育和再生轴突的生长。虽然许多不同的轴突 mRNA 的非翻译区 (UTR) 似乎驱动了它们的定位,但还没有一致的 RNA 结构负责这种定位。我们最近表明,ZBP1 蛋白的有限表达限制了 β-肌动蛋白和 GAP-43 mRNA 的轴突定位。β-肌动蛋白 3'UTR 具有与 ZBP1 相互作用的特定元件,但 GAP-43 mRNA 与该 RNA 序列没有同源性。在这里,我们表明 GAP-43 3'UTR 中的富含 AU 的调节元件 (ARE) 是其轴突定位所必需和充分的。体内损伤后,轴突 GAP-43 mRNA 水平增加,再生轴突中 GAP-43 mRNA 的半衰期增加。GAP-43 mRNA 与 HuD 和 ZBP1 相互作用,HuD 和 ZBP1 以 RNA 依赖的方式共同免疫沉淀。具有 GAP-43 ARE 的报告 mRNA 与内源性 β-肌动蛋白 mRNA 竞争轴突定位,并降低轴突长度和分支,类似于与内源性 GAP-43 mRNA 竞争的 β-肌动蛋白 3'UTR。相反,过表达具有其 3'UTR ARE 的 GAP-43 编码序列会增加轴突伸长,当仅从 GAP-43 的 3'UTR 中删除 ARE 时,这种效应就会丧失。我们最近发现,使用带有 GAP-43 3'UTR 的轴突靶向构建体过表达 GAP-43 可促进轴突的伸长生长,而将 3'UTR 的 γ-肌动蛋白限制在细胞体中对轴突长度几乎没有影响。在这项研究中,我们表明 GAP-43 3'UTR 中的 ARE 负责 GAP-43 mRNA 的定位,并足以发挥 GAP-43 蛋白在伸长轴突生长中的作用。

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