VAMP7 依赖的网织蛋白 3 分泌在神经突生长中的作用

Role of VAMP7-Dependent Secretion of Reticulon 3 in Neurite Growth.

作者信息

Wojnacki José, Nola Sébastien, Bun Philippe, Cholley Béatrice, Filippini Francesca, Pressé Mary T, Lipecka Joanna, Man Lam Sin, N'guyen Julie, Simon Axelle, Ouslimani Amine, Shui Guanghou, Fader Claudio Marcelo, Colombo Maria Isabel, Guerrera Ida Chiara, Galli Thierry

机构信息

Université de Paris, Institute of Psychiatry and Neuroscience of Paris, INSERM U1266, Membrane Traffic in Healthy & Diseased Brain, 75014 Paris, France.

Université de Paris, NeurImag Imaging Facility, Institute of Psychiatry and Neuroscience of Paris, INSERM U1266, 75014 Paris, France.

出版信息

Cell Rep. 2020 Dec 22;33(12):108536. doi: 10.1016/j.celrep.2020.108536.

DOI:10.1016/j.celrep.2020.108536

PMID:33357422

Abstract

VAMP7 is involved in autophagy and in exocytosis-mediated neurite growth, two yet unconnected cellular pathways. Here, we find that nutrient restriction and activation of autophagy stimulate axonal growth, while autophagy inhibition leads to loss of neuronal polarity. VAMP7 knockout (KO) neuronal cells show impaired neurite growth, whereas this process is increased in autophagy-null ATG5 KO cells. We find that endoplasmic reticulum (ER)-phagy-related LC3-interacting-region-containing proteins Atlastin 3 and Reticulon 3 (RTN3) are more abundant in autophagy-related protein ATG5 KO and less abundant in VAMP7 KO secretomes. Treatment of neuronal cells with ATG5 or VAMP7 KO conditioned medium does not recapitulate the effect of these KOs on neurite growth. A nanobody directed against VAMP7 inhibits axonal overgrowth induced by nutrient restriction. Furthermore, expression of the inhibitory Longin domain of VAMP7 impairs the subcellular localization of RTN3 in neurons. We propose that VAMP7-dependent secretion of RTN3 regulates neurite growth.

摘要

VAMP7参与自噬和胞吐作用介导的神经突生长，这是两条尚未关联的细胞途径。在此，我们发现营养限制和自噬激活会刺激轴突生长，而自噬抑制则会导致神经元极性丧失。VAMP7基因敲除（KO）的神经元细胞显示出神经突生长受损，而在自噬缺陷的ATG5基因敲除细胞中这一过程则增强。我们发现，内质网（ER）自噬相关的含LC3相互作用区域的蛋白Atlastin 3和网质蛋白3（RTN3）在自噬相关蛋白ATG5基因敲除细胞的分泌产物中更为丰富，而在VAMP7基因敲除细胞的分泌产物中则较少。用ATG5或VAMP7基因敲除条件培养基处理神经元细胞并不能重现这些基因敲除对神经突生长的影响。一种针对VAMP7的纳米抗体可抑制营养限制诱导的轴突过度生长。此外，VAMP7抑制性的长链结构域的表达会损害RTN3在神经元中的亚细胞定位。我们提出，RTN3的VAMP7依赖性分泌调节神经突生长。

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VAMP7 依赖的网织蛋白 3 分泌在神经突生长中的作用

Role of VAMP7-Dependent Secretion of Reticulon 3 in Neurite Growth.

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