Division of Disease Proteomics; Institute for Enzyme Research; The University of Tokushima; Tokushima, Japan.
Nucleus. 2010 Jul-Aug;1(4):309-13. doi: 10.4161/nucl.1.4.11744. Epub 2010 Mar 3.
The nuclear pore complex (NPC) is composed of ∼30 unique proteins, collectively referred to as nucleoporins or Nups. While metazoan Nups are known to be phosphorylated during mitosis to cause disassembly of the NPC, what is less clear is whether Nups are phosphorylated and regulated by extracellular stimuli in interphase cells. Our multi-step phosphoproteomic approach revealed a number of physiologically relevant extracellular signal-regulated kinase (ERK) targets, including Nups containing FG repeats (FG Nups) that provide binding sites for nuclear transport receptors (NTRs) during the NPC passage. The phosphorylation of FG Nups by ERK does not affect the overall architecture of the NPC but directly inhibits their interactions with NTRs and regulates the permeability barrier properties of the NPC. Such regulation at the levels of transport machinery is expected to have a broad impact on cellular physiology through the spatiotemporal control of signaling events. Until recently, many studies have focused on cellular signaling-mediated phosphorylation of individual cargo proteins, such as transcription factors. An understanding of the effects of signaling pathways on nucleocytoplasmic transport machinery is only beginning to emerge.
核孔复合体(NPC)由约 30 种独特的蛋白质组成,统称为核孔蛋白或核孔复合物。虽然真核生物的核孔蛋白在有丝分裂期间被磷酸化,导致 NPC 的解体已为人所知,但在间期中 NPC 是否被细胞外刺激磷酸化和调控,这一点还不太清楚。我们采用多步骤磷酸化蛋白质组学方法,发现了许多与生理相关的细胞外信号调节激酶(ERK)的靶标,包括含有 FG 重复序列的核孔蛋白(FG 核孔蛋白),它们在 NPC 通过时为核转运受体(NTR)提供结合位点。ERK 对 FG 核孔蛋白的磷酸化不会影响 NPC 的整体结构,但会直接抑制它们与 NTR 的相互作用,并调节 NPC 的通透性屏障特性。这种在运输机制水平上的调控,有望通过信号事件的时空控制,对细胞生理学产生广泛影响。直到最近,许多研究都集中在细胞信号转导介导的单个货物蛋白(如转录因子)的磷酸化上。对于信号通路对核质转运机制的影响的理解才刚刚开始出现。