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精氨酸调控 RGG 盒与多核糖体和 mRNA 的 FMRP 结合。

Arginines of the RGG box regulate FMRP association with polyribosomes and mRNA.

机构信息

Department of Cell and Developmental Biology, College of Medicine, University of Illinois, Urbana-Champaign, IL 61801, USA.

出版信息

Hum Mol Genet. 2010 Apr 1;19(7):1314-23. doi: 10.1093/hmg/ddq007. Epub 2010 Jan 11.

DOI:10.1093/hmg/ddq007
PMID:20064924
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2838539/
Abstract

Fragile X syndrome is caused by the loss of expression of the fragile X mental retardation protein, FMRP. FMRP is an RNA-binding protein that is highly expressed in neurons and undergoes multiple post-translational modifications including methylation on arginine. FMRP is methylated on the high-affinity RNA-binding motif, the RGG box, at positions 533, 538, 543 and 545 of murine FMRP. To identify the arginines important for FMRP function, we examined their role in polyribosome and mRNA association. We found that arginines 533 and 538 were required for normal FMRP polyribosome association whereas all four arginines played a role in RNA binding, depending on the identity of the RNA. The model G-quadruplex RNA sc1 required arginines 533 and 538 for normal association with FMRP, whereas AATYK mRNA did not. In vitro methylation of FMRP-bearing arginine substitutions inhibited sc1 binding but not AATYK binding. In addition, we found that PRMT1 co-immunoprecipitated with FMRP isolated from cells and that siRNAs directed against PRMT1 led to reduced FMRP methylation. Thus, two lines of experimentation demonstrate that PRMT1 acts on FMRP in cells. In summary, we provide evidence for the important role of the RGG box in polyribosome association. We also demonstrate for the first time that the different arginines of the RGG box are important for the binding of different RNAs. Finally, we show that PRMT1 methylates FMRP in cells, suggesting a model where methylation of the RGG box modulates either the quantity or the identity of the RNAs bound by FMRP.

摘要

脆性 X 综合征是由脆性 X 智力迟钝蛋白 FMRP 的表达缺失引起的。FMRP 是一种 RNA 结合蛋白,在神经元中高度表达,并经历多种翻译后修饰,包括精氨酸的甲基化。FMRP 在高亲和力 RNA 结合基序 RGG 盒的 533、538、543 和 545 位的精氨酸上发生甲基化。为了鉴定对 FMRP 功能重要的精氨酸,我们研究了它们在多核糖体和 mRNA 结合中的作用。我们发现,精氨酸 533 和 538 对于 FMRP 多核糖体的正常结合是必需的,而四个精氨酸在 RNA 结合中都发挥作用,这取决于 RNA 的身份。模型 G-四链体 RNA sc1 需要精氨酸 533 和 538 才能与 FMRP 正常结合,而 AATYK mRNA 则不需要。FMRP 携带的精氨酸取代物的体外甲基化抑制了 sc1 的结合,但不抑制 AATYK 的结合。此外,我们发现 PRMT1 与从细胞中分离的 FMRP 共免疫沉淀,并且针对 PRMT1 的 siRNA 导致 FMRP 甲基化减少。因此,两种实验方法都证明了 PRMT1 在细胞中对 FMRP 的作用。总之,我们提供了证据表明 RGG 盒在多核糖体结合中具有重要作用。我们还首次证明 RGG 盒的不同精氨酸对于结合不同的 RNA 是重要的。最后,我们表明 PRMT1 在细胞中甲基化 FMRP,这表明 RGG 盒的甲基化可以调节 FMRP 结合的 RNA 的数量或身份。

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