Rapid Mechanically Controlled Rewiring of Neuronal Circuits

Magdesian Margaret H.; Lopez-Ayon G. Monserratt; Mori Megumi; Boudreau Dominic; Goulet-Hanssens Alexis; Sanz Ricardo; Miyahara Yoichi; Barrett Christopher J.; Fournier Alyson E.; De Koninck Yves; Gruetter Peter

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Rapid Mechanically Controlled Rewiring of Neuronal Circuits

机译：机械控制的神经元回路快速重新布线

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CNS injury may lead to permanent functional deficits because it is still not possible to regenerate axons over long distances and accurately reconnect them with an appropriate target. Using rat neurons, microtools, and nanotools, we show that new, functional neurites can be created and precisely positioned to directly (re) wire neuronal networks. We show that an adhesive contact made onto an axon or dendrite can be pulled to initiate a new neurite that can be mechanically guided to form new synapses at up to 0.8 mm distance in <1 h. Our findings challenge current understanding of the limits of neuronal growth and have direct implications for the development of new therapies and surgical techniques to achieve functional regeneration.

机译：中枢神经系统损伤可能会导致永久性功能缺陷，因为仍然无法在很长的距离上再生轴突并将它们正确地与合适的靶标重新连接。使用大鼠神经元，微型工具和纳米工具，我们证明可以创建新的功能神经突并将其精确定位以直接（重新）连接神经元网络。我们表明，可以拉动轴突或树突上的粘合剂接触以引发新的神经突，该神经突可以在小于1小时的时间内以机械方式引导以形成新的突触，最大间距为0.8 mm。我们的发现挑战了当前对神经元生长限制的理解，并直接影响到新疗法和外科技术的发展，以实现功能性再生。

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《The Journal of Neuroscience: The Official Journal of the Society for Neuroscience 》 |2016年第3期| 共9页
作者
Magdesian Margaret H.; Lopez-Ayon G. Monserratt; Mori Megumi; Boudreau Dominic; Goulet-Hanssens Alexis; Sanz Ricardo; Miyahara Yoichi; Barrett Christopher J.; Fournier Alyson E.; De Koninck Yves; Gruetter Peter;
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正文语种 eng
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atomic force microscopy; axonal growth; electrophysiology; neurodegenerative disease; neuronal networks; neuronal regeneration;

机译：原子力显微镜;轴突生长;电生理;神经退行性疾病;神经网络;神经再生;

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1. Rapid Mechanically Controlled Rewiring of Neuronal Circuits [J] . Magdesian Margaret H., Lopez-Ayon G. Monserratt, Mori Megumi, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2016 ,第3期

机译：机械控制的神经元回路快速重新布线
2. Neuronal replacement and integration in the rewiring of cerebellar circuits. [J] . Grimaldi P, Carletti B, Rossi F Brain research. Brain research reviews . 2005 ,第2期

机译：小脑回路重新布线中的神经元置换和整合。
3. Rapid Rewiring of Arcuate Nucleus Feeding Circuits by Leptin [J] . Shirty Pinto, Aaron C. Roseberry, Hongyan Liu, Science . 2004 ,第5667期

机译：瘦蛋白快速重新连接弓形核饲养电路
4. A Perfusion System for Autonomous Energy Control of the Living Neuronal Circuit. [C] . Kana Fukui, Suguru N. Kudoh International Symposium on Advanced Intelligent Systems;International Conference on Soft Computing and Intelligent Systems . 2018

机译：活体神经元回路自主能量控制的灌注系统。
5. Laser-controlled rapid prototyping of photonic integrated circuits [D] . Eldada, Louay A. 1994

机译：光子集成电路的激光控制快速原型制作
6. Rapid Mechanically Controlled Rewiring of Neuronal Circuits [O] . Margaret H. Magdesian, G. Monserratt Lopez-Ayon, Megumi Mori, 2016

机译：机械控制神经元回路的快速重新布线
7. Rapid Mechanically Controlled Rewiring of Neuronal Circuits [O] . Margaret H. Magdesian, G. Monserratt Lopez-Ayon, Megumi Mori, 2016

机译：神经元电路的快速机械控制重新安装

Rapid Mechanically Controlled Rewiring of Neuronal Circuits

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