Vision Division, Krembil Research Institute, Krembil Discovery Tower, Toronto, Ontario, Canada.
Department of Physiology, Faculty of Medicine, University of Toronto, Toronto, Ontario, Canada.
Dev Growth Differ. 2020 Aug;62(6):391-397. doi: 10.1111/dgd.12666. Epub 2020 May 22.
Current models of axon guidance within the central nervous system (CNS) involve the presentation of environmental cues to navigating growth cones. The surrounding and target tissues present a variety of ligands that either restrict or promote growth, thus providing pathfinding instructions to developing axons. Recent findings show that RGMb, a GPI anchored extracellular protein present on retinal ganglion cells, down-regulates Wnt3a signaling by lowering LRP5 levels at the membrane surface. When RGMb is phosphorylated by the extracellular tyrosine kinase VLK, phosphorylated RGMb (p-RGMb) is internalized and carries LRP5 towards intracellular compartments. In the eye, a dorsal-high ventral-low gradient of VLK generates a dorsal-low ventral-high gradient of LRP5 that modulates Wnt3a signaling. These molecules, which are all expressed by individual RGCs, generate Wnt-signal gradients along the dorso-ventral axis of the retina, resulting in differential axon growth which in turn regulates proper retino-tectal/collicular map formation. This pathway represents a regulatory mechanism whereby extracellular phosphorylation generates what may be the first example of a unique self-guiding mechanism that affects neuronal-target connections independent of paracrine signals from the surrounding target tissue.
目前中枢神经系统(CNS)轴突导向的模型涉及到向导航生长锥呈现环境线索。周围和靶组织呈现出各种配体,这些配体限制或促进生长,从而为发育中的轴突提供寻路指令。最近的发现表明,RGMb 是一种存在于视网膜神经节细胞上的 GPI 锚定细胞外蛋白,通过降低细胞膜表面的 LRP5 水平来下调 Wnt3a 信号。当细胞外酪氨酸激酶 VLK 磷酸化 RGMb 时,磷酸化的 RGMb(p-RGMb)被内化,并将 LRP5 携带到细胞内隔室。在眼睛中,VLK 产生一个从背侧向腹侧升高的梯度,从而产生一个从背侧向腹侧降低的 LRP5 梯度,调节 Wnt3a 信号。这些分子都由单个 RGC 表达,在视网膜的背腹轴上产生 Wnt 信号梯度,导致不同的轴突生长,进而调节适当的视网膜-顶盖/视丘束形成。该途径代表了一种调节机制,其中细胞外磷酸化产生了可能是第一个独特的自我导向机制的例子,该机制独立于周围靶组织的旁分泌信号影响神经元-靶连接。
