Neuropeptide Signaling Networks and Brain Circuit Plasticity.

Journal of Experimental Neuroscience Pub Date : 2018-05-31 eCollection Date: 2018-01-01 DOI:10.1177/1179069518779207

Cynthia K McClard, Benjamin R Arenkiel

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Abstract

The brain is a remarkable network of circuits dedicated to sensory integration, perception, and response. The computational power of the brain is estimated to dwarf that of most modern supercomputers, but perhaps its most fascinating capability is to structurally refine itself in response to experience. In the language of computers, the brain is loaded with programs that encode when and how to alter its own hardware. This programmed "plasticity" is a critical mechanism by which the brain shapes behavior to adapt to changing environments. The expansive array of molecular commands that help execute this programming is beginning to emerge. Notably, several neuropeptide transmitters, previously best characterized for their roles in hypothalamic endocrine regulation, have increasingly been recognized for mediating activity-dependent refinement of local brain circuits. Here, we discuss recent discoveries that reveal how local signaling by corticotropin-releasing hormone reshapes mouse olfactory bulb circuits in response to activity and further explore how other local neuropeptide networks may function toward similar ends.

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神经肽信号网络与大脑回路可塑性

大脑是一个非凡的电路网络，致力于感官整合、感知和反应。据估计，大脑的计算能力与大多数现代超级计算机相比都相形见绌，但它最迷人的能力或许是根据经验从结构上完善自身。用计算机的语言来说，大脑中装载的程序编码了何时以及如何改变自身的硬件。这种程序化的 "可塑性 "是大脑塑造行为以适应不断变化的环境的重要机制。帮助执行这种编程的大量分子指令正开始浮出水面。值得注意的是，有几种神经肽递质以前在下丘脑内分泌调控中的作用最为突出，但现在人们越来越认识到，它们可以介导局部脑回路的活动依赖性细化。在这里，我们将讨论最近的发现，这些发现揭示了促肾上腺皮质激素释放激素的局部信号传导是如何重塑小鼠嗅球回路以响应活动的，并进一步探讨其他局部神经肽网络是如何发挥类似作用的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Experimental Neuroscience NEUROSCIENCES-

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8 weeks