细胞黏附分子Tag1、跨膜蛋白Stbm/Vangl2和层粘连蛋白α1在斑马鱼面部鳃运动神经元迁移过程中表现出基因相互作用。
The cell adhesion molecule Tag1, transmembrane protein Stbm/Vangl2, and Lamininalpha1 exhibit genetic interactions during migration of facial branchiomotor neurons in zebrafish.
作者信息
Sittaramane Vinoth, Sawant Anagha, Wolman Marc A, Maves Lisa, Halloran Mary C, Chandrasekhar Anand
机构信息
Division of Biological Sciences and Bond Life Sciences Center, University of Missouri, Columbia, MO 65211, USA.
出版信息
Dev Biol. 2009 Jan 15;325(2):363-73. doi: 10.1016/j.ydbio.2008.10.030. Epub 2008 Nov 5.
Abstract
Interactions between a neuron and its environment play a major role in neuronal migration. We show here that the cell adhesion molecule Transient Axonal Glycoprotein (Tag1) is necessary for the migration of the facial branchiomotor neurons (FBMNs) in the zebrafish hindbrain. In tag1 morphant embryos, FBMN migration is specifically blocked, with no effect on organization or patterning of other hindbrain neurons. Furthermore, using suboptimal morpholino doses and genetic mutants, we found that tag1, lamininalpha1 (lama1) and stbm, which encodes a transmembrane protein Vangl2, exhibit pairwise genetic interactions for FBMN migration. Using time-lapse analyses, we found that FBMNs are affected similarly in all three single morphant embryos, with an inability to extend protrusions in a specific direction, and resulting in the failure of caudal migration. These data suggest that tag1, lama1 and vangl2 participate in a common mechanism that integrates signaling between the FBMN and its environment to regulate migration.
摘要
神经元与其周围环境之间的相互作用在神经元迁移中起着主要作用。我们在此表明,细胞粘附分子瞬时轴突糖蛋白(Tag1)对于斑马鱼后脑面部鳃运动神经元(FBMN)的迁移是必需的。在tag1吗啉代寡核苷酸注射的胚胎中,FBMN迁移被特异性阻断,而对其他后脑神经元的组织或模式没有影响。此外,使用次优剂量的吗啉代寡核苷酸和基因敲除突变体,我们发现tag1、层粘连蛋白α1(lama1)和编码跨膜蛋白Vangl2的stbm,在FBMN迁移方面表现出两两基因相互作用。通过延时分析,我们发现所有三个单基因敲降胚胎中的FBMN受到的影响相似,无法在特定方向上延伸突起,导致尾侧迁移失败。这些数据表明,tag1、lama1和vangl2参与了一个共同的机制,该机制整合了FBMN与其周围环境之间的信号传导以调节迁移。
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