缺乏内体 SNAREs vti1a 和 vti1b 导致神经元发育严重受损。

Lack of the endosomal SNAREs vti1a and vti1b led to significant impairments in neuronal development.

机构信息

Department of Neuroanatomy, Center of Anatomy, University of Göttingen, 37075 Göttingen, Germany.

出版信息

Proc Natl Acad Sci U S A. 2011 Feb 8;108(6):2575-80. doi: 10.1073/pnas.1013891108. Epub 2011 Jan 24.

DOI:10.1073/pnas.1013891108

PMID:21262811

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3038762/

Abstract

Fusion between membranes is mediated by specific SNARE complexes. Here we report that fibroblasts survive the absence of the trans-Golgi network/early endosomal SNARE vti1a and the late endosomal SNARE vti1b with intact organelle morphology and minor trafficking defects. Because vti1a and vti1b are the only members of their SNARE subclass and the yeast homolog Vti1p is essential for cell survival, these data suggest that more distantly related SNAREs acquired the ability to function in endosomal traffic during evolution. However, absence of vti1a and vti1b resulted in perinatal lethality. Major axon tracts were missing, reduced in size, or misrouted in Vti1a(-/-) Vti1b(-/-) embryos. Progressive neurodegeneration was observed in most Vti1a(-/-) Vti1b(-/-) peripheral ganglia. Neurons were reduced by more than 95% in Vti1a(-/-) Vti1b(-/-) dorsal root and geniculate ganglia at embryonic day 18.5. These data suggest that special demands for endosomal membrane traffic could not be met in Vti1a(-/-) Vti1b(-/-) neurons. Vti1a(-/-) and Vti1b(-/-) single deficient mice were viable without these neuronal defects, indicating that they can substitute for each other in these processes.

摘要

膜融合是由特定的 SNARE 复合物介导的。在这里，我们报告说，成纤维细胞在缺乏跨高尔基网络/早期内体 SNARE vti1a 和晚期内体 SNARE vti1b 的情况下仍能存活，细胞器形态完整，仅有轻微的运输缺陷。由于 vti1a 和 vti1b 是它们 SNARE 亚类的唯一成员，并且酵母同源物 Vti1p 对于细胞存活是必需的，这些数据表明，在进化过程中，更远亲缘关系的 SNARE 获得了在内体运输中发挥功能的能力。然而，vti1a 和 vti1b 的缺失导致围产期致死。Vti1a(-/-) Vti1b(-/-) 胚胎中的主要轴突束缺失、变小或错位。在大多数 Vti1a(-/-) Vti1b(-/-) 周围神经节中观察到进行性神经退行性变。在 Vti1a(-/-) Vti1b(-/-) 胚胎 18.5 天时，Vti1a(-/-) Vti1b(-/-) 背根和膝状神经节中的神经元减少了 95%以上。这些数据表明，Vti1a(-/-) Vti1b(-/-) 神经元不能满足内体膜运输的特殊需求。Vti1a(-/-)和 Vti1b(-/-)单缺失小鼠在没有这些神经元缺陷的情况下仍能存活，表明它们可以在这些过程中相互替代。

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