SMN regulates axonal local translation via miR-183/mTOR pathway.

Min Jeong Kye; Emily D Niederst; Mary H Wertz; Inês do Carmo G Gon?alves; Bikem Akten; Katarzyna Z Dover; Miriam Peters; Markus Riessland; Pierre Neveu; Brunhilde Wirth; Kenneth S Kosik; S Pablo Sardi; Umrao R Monani; Marco A Passini; Mustafa Sahin

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SMN regulates axonal local translation via miR-183/mTOR pathway.

机译：SMN通过miR-183 / mTOR途径调节轴突局部翻译。

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Reduced expression of SMN protein causes spinal muscular atrophy (SMA), a neurodegenerative disorder leading to motor neuron dysfunction and loss. However, the molecular mechanisms by which SMN regulates neuronal dysfunction are not fully understood. Here, we report that reduced SMN protein level alters miRNA expression and distribution in neurons. In particular, miR-183 levels are increased in neurites of SMN-deficient neurons. We demonstrate that miR-183 regulates translation of mTor via direct binding to its 3' UTR. Interestingly, local axonal translation of mTor is reduced in SMN-deficient neurons, and this can be recovered by miR-183 inhibition. Finally, inhibition of miR-183 expression in the spinal cord of an SMA mouse model prolongs survival and improves motor function of Smn-mutant mice. Together, these observations suggest that axonal miRNAs and the mTOR pathway are previously unidentified molecular mechanisms contributing to SMA pathology.

机译：SMN蛋白的表达降低会导致脊髓性肌萎缩症（SMA），这是一种神经退行性疾病，导致运动神经元功能障碍和丧失。但是，尚不完全了解SMN调节神经元功能障碍的分子机制。在这里，我们报告说减少的SMN蛋白水平改变了miRNA在神经元中的表达和分布。特别是，SMN缺陷神经元的神经突中miR-183水平升高。我们证明了miR-183通过直接与其3'UTR结合来调节mTor的翻译。有趣的是，SMN缺陷神经元中mTor的局部轴突翻译减少了，这可以通过miR-183抑制来恢复。最后，抑制SMA小鼠模型脊髓中miR-183的表达可延长生存期并改善Smn突变小鼠的运动功能。在一起，这些观察结果表明，轴突miRNA和mTOR通路是以前未明的分子机制，有助于SMA病理学。

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《Human Molecular Genetics》 |2014年第23期|共14页
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Min Jeong Kye; Emily D Niederst; Mary H Wertz; Inês do Carmo G Gon?alves; Bikem Akten; Katarzyna Z Dover; Miriam Peters; Markus Riessland; Pierre Neveu; Brunhilde Wirth; Kenneth S Kosik; S Pablo Sardi; Umrao R Monani; Marco A Passini; Mustafa Sahin;
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正文语种 eng
中图分类医学遗传学;
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1. SMN regulates axonal local translation via miR-183/mTOR pathway. [J] . Min Jeong Kye, Emily D Niederst, Mary H Wertz, Human Molecular Genetics . 2014,第23期

机译：SMN通过miR-183 / mTOR途径调节轴突局部翻译。
2. Laminin induced local axonal translation of β-actin mRNA is impaired in SMN-deficient motoneurons [J] . RathodR., HavlicekS., FrankN., Histochemistry and cell biology . 2012,第5期

机译：层粘连蛋白诱导的β-肌动蛋白mRNA的局部轴突翻译在SMN缺陷的运动神经元中受损。
3. Laminin induced local axonal translation of β-actin mRNA is impaired in SMN-deficient motoneurons [J] . Reena Rathod, Steven Havlicek, Nicolas Frank, Histochemistry and Cell Biology . 2012,第5期

机译：层粘连蛋白诱导的β-肌动蛋白mRNA的局部轴突翻译在SMN缺乏的运动神经元中受损。
4. The Collaboration between JAK2-STAT5 and mTORSignalling Pathways Regulates Milk Protein Synthesis in Bovine Mammary Epithelial Cells [C] . Shi L L, Zhao F, LI Q Z, 3rd international symposium on dairy cow nutrition and milk quality proceedings . 2013

机译：JAK2-STAT5和mTORSignalling途径之间的协作调节牛乳腺上皮细胞中的牛奶蛋白合成
5. Regulation of peripheral nerve regeneration by the mtor pathway. [D] . Abe, Namiko. 2010

机译：通过mtor途径调节周围神经再生。
6. SMN regulates axonal local translation via miR-183/mTOR pathway [O] . Min Jeong Kye, Emily D. Niederst, Mary H. Wertz, -1

机译：SMN通过miR-183 / mTOR途径调节轴突局部翻译
7. Growth-factor dependent expression of the translationally controlled tumour protein TCTP is regulated through the PI3-K/Akt/mTORC1 signalling pathway. [O] . Bommer, UA, Iadevaia, V, Chen, J, 2015

机译：通过PI3-K / Akt / mTORC1信号通路调节翻译控制的肿瘤蛋白TCTP的生长因子依赖性表达。

SMN regulates axonal local translation via miR-183/mTOR pathway.

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