脆性X蛋白在脑神经元发育过程中控制微管相关蛋白1B的翻译及微管稳定性。

The fragile X protein controls microtubule-associated protein 1B translation and microtubule stability in brain neuron development.

作者信息

Lu Robert, Wang Houping, Liang Zhe, Ku Li, O'donnell William T, Li Wen, Warren Stephen T, Feng Yue

机构信息

Department of Pharmacology, Emory University School of Medicine, Atlanta, GA 30322, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Oct 19;101(42):15201-6. doi: 10.1073/pnas.0404995101. Epub 2004 Oct 8.

DOI:10.1073/pnas.0404995101

PMID:15475576

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC524058/

Abstract

The fragile X mental retardation protein (FMRP) is a selective RNA-binding protein implicated in regulating translation of its mRNA ligands. The absence of FMRP results in fragile X syndrome, one of the leading causes of inherited mental retardation. Delayed dendritic spine maturation was found in fragile X mental retardation patients as well as in Fmr1 knockout (KO) mice, indicating the functional requirement of FMRP in synaptic development. However, the biochemical link between FMRP deficiency and the neuronal impairment during brain development has not been defined. How FMRP governs normal synapse development in the brain remains elusive. We report here that the developmentally programmed FMRP expression represses the translation of microtubule associated protein 1B (MAP1B) and is required for the accelerated decline of MAP1B during active synaptogenesis in neonatal brain development. The lack of FMRP results in misregulated MAP1B translation and delayed MAP1B decline in the Fmr1 KO brain. Furthermore, the aberrantly elevated MAP1B protein expression leads to abnormally increased microtubule stability in Fmr1 KO neurons. Together, these results indicate that FMRP plays critical roles in controlling cytoskeleton organization during neuronal development, and the abnormal microtubule dynamics is a conceivable underlying factor for the pathogenesis of fragile X mental retardation.

摘要

脆性X智力低下蛋白（FMRP）是一种选择性RNA结合蛋白，参与调节其mRNA配体的翻译。FMRP的缺失会导致脆性X综合征，这是遗传性智力低下的主要原因之一。在脆性X智力低下患者以及Fmr1基因敲除（KO）小鼠中均发现树突棘成熟延迟，这表明FMRP在突触发育中具有功能需求。然而，FMRP缺乏与脑发育过程中神经元损伤之间的生化联系尚未明确。FMRP如何调控大脑中正常的突触发育仍不清楚。我们在此报告，发育程序性的FMRP表达抑制微管相关蛋白1B（MAP1B）的翻译，并且在新生脑发育活跃的突触形成过程中，对于MAP1B的加速下降是必需的。FMRP的缺乏导致Fmr1基因敲除脑中MAP1B翻译失调以及MAP1B下降延迟。此外，异常升高的MAP1B蛋白表达导致Fmr1基因敲除神经元中微管稳定性异常增加。总之，这些结果表明FMRP在神经元发育过程中控制细胞骨架组织方面发挥关键作用，并且异常的微管动力学是脆性X智力低下发病机制中一个可能的潜在因素。

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本文引用的文献

Biochemical evidence for the association of fragile X mental retardation protein with brain polyribosomal ribonucleoparticles.脆性X智力低下蛋白与脑多核糖体核糖核蛋白体关联的生化证据。

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Fragile X mental retardation protein is associated with translating polyribosomes in neuronal cells.脆性X智力低下蛋白与神经元细胞中的多核糖体翻译相关。

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New synaptic bouton formation is disrupted by misregulation of microtubule stability in aPKC mutants.在非典型蛋白激酶C（aPKC）突变体中，微管稳定性的调控异常会破坏新突触小体的形成。

Neuron. 2004 May 27;42(4):567-80. doi: 10.1016/s0896-6273(04)00255-7.

Metabotropic glutamate receptor activation regulates fragile x mental retardation protein and FMR1 mRNA localization differentially in dendrites and at synapses.代谢型谷氨酸受体激活对树突和突触中脆性X智力低下蛋白及FMR1 mRNA的定位调控存在差异。

J Neurosci. 2004 Mar 17;24(11):2648-55. doi: 10.1523/JNEUROSCI.0099-04.2004.

Biochemical and genetic interaction between the fragile X mental retardation protein and the microRNA pathway.脆性X智力低下蛋白与微小RNA途径之间的生化和遗传相互作用。

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