Zentrum für Molekulare Neurobiologie, Universitätsklinikum Hamburg-Eppendorf, 20246 Hamburg, Germany.
J Neurosci. 2013 Jan 9;33(2):790-803. doi: 10.1523/JNEUROSCI.1238-12.2013.
The Neural cell adhesion molecule (NCAM) plays an important role in regulation of nervous system development. To expand our understanding of the molecular mechanisms via which NCAM influences differentiation of neurons, we used a yeast two-hybrid screening to search for new binding partners of NCAM and identified p21-activated kinase 1 (Pak1). We show that NCAM interacts with Pak1 in growth cones of neurons. The autophosphorylation and activity of Pak1 were enhanced when isolated growth cones were incubated with NCAM function triggering antibodies, which mimic the interaction between NCAM and its extracellular ligands. The association of Pak1 with cell membranes, the efficiency of Pak1 binding to its activators, and Pak1 activity were inhibited in brains of NCAM-deficient mice. NCAM-dependent Pak1 activation was abolished after lipid raft disruption, suggesting that NCAM promotes Pak1 activation in the lipid raft environment. Phosphorylation of the downstream Pak1 effectors LIMK1 and cofilin was reduced in growth cones from NCAM-deficient neurons, which was accompanied by decreased levels of filamentous actin and inhibited filopodium mobility in the growth cones. Dominant-negative Pak1 inhibited and constitutively active Pak1 enhanced the ability of neurons to increase neurite outgrowth in response to the extracellular ligands of NCAM. Our combined observations thus indicate that NCAM activates Pak1 to drive actin polymerization to promote neuronal differentiation.
神经细胞黏附分子(NCAM)在神经系统发育的调控中起着重要作用。为了扩展我们对 NCAM 影响神经元分化的分子机制的理解,我们使用酵母双杂交筛选来寻找 NCAM 的新结合伴侣,并鉴定出 p21 激活激酶 1(Pak1)。我们表明,NCAM 在神经元的生长锥中与 Pak1 相互作用。当用 NCAM 功能触发抗体(模拟 NCAM 与其细胞外配体之间的相互作用)孵育分离的生长锥时,Pak1 的自身磷酸化和活性增强。Pak1 与细胞膜的结合、Pak1 与其激活剂的结合效率以及 Pak1 的活性在 NCAM 缺失小鼠的大脑中受到抑制。在脂筏破坏后,NCAM 依赖性 Pak1 激活被废除,表明 NCAM 在脂筏环境中促进 Pak1 激活。NCAM 缺失神经元的生长锥中下游 Pak1 效应物 LIMK1 和丝切蛋白的磷酸化减少,伴随着丝状肌动蛋白水平降低和生长锥中的丝状伪足运动受到抑制。显性失活的 Pak1 抑制并组成激活的 Pak1 增强神经元增加对 NCAM 细胞外配体的神经突生长能力。因此,我们的综合观察表明,NCAM 激活 Pak1 以驱动肌动蛋白聚合,从而促进神经元分化。