Matsuo Naoki, Hoshino Mikio, Yoshizawa Masato, Nabeshima Yo-ichi
Department of Pathology and Tumor Biology, Graduate School of Medicine, Kyoto University, Kyoto 606-8501, Japan.
J Biol Chem. 2002 Jan 25;277(4):2860-8. doi: 10.1074/jbc.M106186200. Epub 2001 Nov 13.
Accumulating evidence suggests that Rho family GTPases play critical roles in the organization of the nervous system. We previously identified a guanine nucleotide exchange factor of Rac1, STEF (SIF and Tiam 1-like exchange factor), which can induce ruffling membrane in KB cells and is predominantly expressed in the brain during development. Here, we characterize the molecular nature of STEF and its involvement in neurite growth. Deletion analyses revealed distinct roles for individual domains: PHnTSS for membrane association, DH for enzymatic activity, and PHc for promoting catalytic activity. Ectopic expression of STEF in N1E-115 neuroblastoma cells induced neurite-like processes containing F-actin, betaIII tubulin, MAP2, and GAP43 in a Rac1-dependent manner even under the serum-containing neurite-inhibiting conditions. We further found that a PHnTSS STEF fragment specifically inhibited the function of both STEF and Tiam1, a closely related Rac1 guanine nucleotide exchange factor. Suppression of endogenous STEF and Tiam1 activities in N1E-115 cells by ectopically expressed PHnTSS STEF resulted in inhibition of neurite outgrowth in serum-starved conditions, which usually induce neurite formation. Furthermore, these inhibitory effects were rescued by exogenously expressed STEF or Tiam1, suggesting that STEF and Tiam1 are involved in neurite formation through the activation of Rac1 and successive cytoskeletal reorganization of neuronal cells during development.
越来越多的证据表明,Rho家族小G蛋白在神经系统的组织中发挥着关键作用。我们之前鉴定出一种Rac1的鸟嘌呤核苷酸交换因子,即STEF(SIF和Tiam 1样交换因子),它可在KB细胞中诱导膜 ruffling,并且在发育过程中主要在脑中表达。在此,我们描述了STEF的分子特性及其在神经突生长中的作用。缺失分析揭示了各个结构域的不同作用:PHnTSS负责膜结合,DH负责酶活性,而PHc负责促进催化活性。即使在含血清的神经突抑制条件下,STEF在N1E-115神经母细胞瘤细胞中的异位表达也以Rac1依赖的方式诱导了含有F-肌动蛋白、βIII微管蛋白、MAP2和GAP43的神经突样突起。我们进一步发现,一个PHnTSS STEF片段特异性地抑制了STEF和Tiam1(一种密切相关的Rac1鸟嘌呤核苷酸交换因子)的功能。异位表达的PHnTSS STEF对N1E-115细胞中内源性STEF和Tiam1活性的抑制导致在血清饥饿条件下神经突生长的抑制,而血清饥饿条件通常会诱导神经突形成。此外,这些抑制作用可通过外源性表达的STEF或Tiam1得到挽救,这表明STEF和Tiam1在发育过程中通过激活Rac1以及神经元细胞的连续细胞骨架重组参与神经突形成。
