Bernad Rafael, Engelsma Dieuwke, Sanderson Helen, Pickersgill Helen, Fornerod Maarten
Department of Tumor Biology, The Netherlands Cancer Institute, Plesmanlaan 121, 1066 CX Amsterdam, The Netherlands.
J Biol Chem. 2006 Jul 14;281(28):19378-86. doi: 10.1074/jbc.M512585200. Epub 2006 May 4.
The nuclear pore complex (NPC) conducts macromolecular transport to and from the nucleus and provides a kinetic/hydrophobic barrier composed of phenylalanine-glycine (FG) repeats. Nuclear transport is achieved through permeation of this barrier by transport receptors. The transport receptor CRM1 facilitates export of a large variety of cargoes. Export of the preribosomal 60 S subunit follows this pathway through the adaptor protein NMD3. Using RNA interference, we depleted two FG-containing cytoplasmically oriented NPC complexes, Nup214-Nup88 and Nup358, and investigated CRM1-mediated export. A dramatic defect in NMD3-mediated export of preribosomes was found in Nup214-Nup88-depleted cells, whereas only minor export defects were evident in other CRM1 cargoes or upon depletion of Nup358. We show that the large C-terminal FG domain of Nup214 is not accessible to freely diffusing molecules from the nucleus, indicating that it does not conduct 60 S preribosomes through the NPC. Consistently, derivatives of Nup214 lacking the FG-repeat domain rescued the 60 S export defect. We show that the coiled-coil region of Nup214 is sufficient for 60 S nuclear export, coinciding with recruitment of Nup88 to the NPC. Our data indicate that Nup214 plays independent roles in NPC function by participating in the kinetic/hydrophobic barrier through its FG-rich domain and by enabling NPC gating through association with Nup88.
核孔复合体(NPC)介导大分子进出细胞核,并提供由苯丙氨酸-甘氨酸(FG)重复序列组成的动力学/疏水屏障。核运输是通过运输受体穿透该屏障来实现的。运输受体CRM1促进多种货物的输出。前核糖体60 S亚基的输出通过衔接蛋白NMD3遵循此途径。我们使用RNA干扰技术,耗尽了两种含FG的细胞质定向核孔复合体Nup214-Nup88和Nup358,并研究了CRM1介导的输出。在Nup214-Nup88耗尽的细胞中发现前核糖体的NMD3介导的输出存在严重缺陷,而在其他CRM1货物中或Nup358耗尽时仅出现轻微的输出缺陷。我们发现,Nup214的大的C末端FG结构域对于来自细胞核的自由扩散分子是不可接近的,这表明它不介导60 S前核糖体通过核孔复合体。一致地,缺乏FG重复结构域的Nup214衍生物挽救了60 S的输出缺陷。我们表明,Nup214的卷曲螺旋区域足以实现60 S的核输出,这与Nup88募集到核孔复合体相吻合。我们的数据表明,Nup214通过其富含FG的结构域参与动力学/疏水屏障并通过与Nup88结合实现核孔复合体的门控,从而在核孔复合体功能中发挥独立作用。
