斑马鱼 rgs4 对于 Akt 信号介导的运动和轴突发生是必需的。
Zebrafish rgs4 is essential for motility and axonogenesis mediated by Akt signaling.
机构信息
Graduate Institute of Biomedical Sciences, School of Medicine, Chang Gung University, Taoyuan, 33383, Taiwan.
出版信息
Cell Mol Life Sci. 2013 Mar;70(5):935-50. doi: 10.1007/s00018-012-1178-z. Epub 2012 Oct 11.
Abstract
The schizophrenia susceptibility gene, Rgs4, is one of the most intensively studied regulators of G-protein signaling members, well known to be fundamental in regulating neurotransmission. However, little is known about its role in the developing nervous system. We have isolated zebrafish rgs4 and shown that it is transcribed in the developing nervous system. Rgs4 knockdown did not affect neuron number and patterning but resulted in locomotion defects and aberrant development of axons. This was confirmed using a selective Rgs4 inhibitor, CCG-4986. Rgs4 knockdown also attenuated the level of phosphorylated-Akt1, and injection of constitutively-activated AKT1 rescued the motility defects and axonal phenotypes in the spinal cord but not in the hindbrain and trigeminal neurons. Our in vivo analysis reveals a novel role for Rgs4 in regulating axonogenesis during embryogenesis, which is mediated by another schizophrenia-associated gene, Akt1, in a region-specific manner.
摘要
精神分裂症易感基因 Rgs4 是 G 蛋白信号转导成员中研究最深入的调节因子之一,其在调节神经递质方面的作用众所周知。然而,关于其在发育中的神经系统中的作用知之甚少。我们已经分离出斑马鱼 rgs4,并表明它在发育中的神经系统中被转录。Rgs4 敲低不会影响神经元数量和模式形成,但会导致运动缺陷和轴突异常发育。这一点通过使用选择性 Rgs4 抑制剂 CCG-4986 得到了证实。Rgs4 敲低还降低了磷酸化 Akt1 的水平,而注射组成型激活的 AKT1 可挽救脊髓中的运动缺陷和轴突表型,但不能挽救后脑和三叉神经神经元中的运动缺陷和轴突表型。我们的体内分析揭示了 Rgs4 在胚胎发生过程中调节轴突发生的新作用,这种作用是通过另一个与精神分裂症相关的基因 Akt1 以区域特异性方式介导的。
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