Architecture and Dynamics of the Neuronal Secretory Network

Matthew J. Kennedy; Cyril Hanus

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Architecture and Dynamics of the Neuronal Secretory Network

机译：神经元分泌网络的建筑和动态

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Regulated synthesis and movement of proteins between cellular organelles are central to diverse forms of biological adaptation and plasticity.In neurons, the repertoire of channel, receptor, and adhesion proteins displayed on the cell surface directly impacts cellular development, morphology, excitability, and synapse function.The immensity of the neuronal surface membrane and its division into distinct functional domains present a challenging landscape over which proteins must navigate to reach their appropriate functional domains.This problem becomes more complex considering that neuronal protein synthesis is continuously refined in space and time by neural activity.Here we review our current understanding of how integral membrane and secreted proteins important for neuronal function travel from their sites of synthesis to their functional destinations.We discuss how unique adaptations to the function and distribution of neuronal secretory organelles may facilitate local protein trafficking at remote sites in neuronal dendrites to support diverse forms of synaptic plasticity.

机译：细胞细胞器之间的蛋白质的受调节合成和运动是不同形式的生物适应和塑性的核心。在细胞表面上显示的通道，受体和粘附蛋白的神经元，直接影响细胞发育，形态，兴奋性和突触功能。神经元表面膜的沉浸性和其分裂成明显的功能域具有挑战性的景观，蛋白质必须导航以达到适当的功能域。考虑到神经元蛋白质合成在空间和神经网络中连续地精制时变得更复杂活动。我们目前的审查了对神经元函数的整体膜和分泌蛋白质从其统一性目的地出发的重要膜和分泌蛋白质的理解。我们讨论了对神经元分泌细胞器的功能和分布的独特适应可以促进局部蛋白质TRAF在神经元德内德的偏远地点剥夺，以支持各种形式的突触塑性。

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《Annual review of cell and developmental biology》 |2019年第2019期|共24页
作者
Matthew J. Kennedy; Cyril Hanus;
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作者单位

Department of Pharmacology University of Colorado School of Medicine;

Institute for Psychiatry and Neurosciences of Paris Institut National de la Santé et de la Recherche Médicale (INSERM) Université de Paris;

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原文格式 PDF
正文语种 eng
中图分类细胞生物学;
关键词
dendrite; synapse; intermediate compartment; Golgi apparatus; endoplasmic reticulum; recycling endosome;

机译：树突;突触;中间隔间;高尔基装置;内质网;回收内剂;

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专利

1. Architecture and Dynamics of the Neuronal Secretory Network [J] . Matthew J. Kennedy, Cyril Hanus Annual review of cell and developmental biology . 2019,第期

机译：神经元分泌网络的建筑和动态
2. Understanding neuronal molecular networks builds on neuronal cellular network architecture. [J] . Agnati LF, Guidolin D, Carone C, Brain research. Brain research reviews . 2008,第2期

机译：了解神经元分子网络建立在神经元细胞网络体系结构上。
3. Dynamics of peptidergic secretory granule transport are regulated by neuronal stimulation [J] . Jacqueline A Sobota, William A Mohler, Ann E Cowan, BMC Neuroscience . 2010,第1期

机译：肽能分泌颗粒运输的动力学受神经元刺激调节。
4. Molecular architecture and protein interaction networks of dense-core secretory vesicles from a human adrenal pheochromocytoma: Implications in stress and neuropeptide secretion [C] . Steven J. Bark, Jill L. Wegrzyn, Qi Ma, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2011

机译：来自人肾上腺细胞瘤的密集核心分泌囊泡的分子结构和蛋白质相互作用网络：对压力和神经肽分泌的影响
5. Large-Scale Neural Network Modeling: From Neuronal Microcircuits to Whole-Brain Complex Network Dynamics [D] . Liu, Qin 2018

机译：大规模神经网络建模：从神经元微电路到全脑复杂网络动力学
6. Correlated neuronal activity and its relationship to coding dynamics and network architecture [O] . Robert Rosenbaum, Tatjana Tchumatchenko, Rubén Moreno-Bote 2014

机译：相关的神经元活动及其与编码动力学和网络架构的关系
7. Correlated neuronal activity and its relationship to coding, dynamics and network architecture [O] . Robert eRosenbaum, Tatjana eTchumatchenko, Ruben eMoreno-Bote 2014

机译：相关神经元活动及其与编码，动态和网络架构的关系

Architecture and Dynamics of the Neuronal Secretory Network

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