Neuronal activity controls the development of interneurons in the somatosensory cortex.

Frontiers in Biology Pub Date : 2016-12-01 Epub Date: 2016-11-29 DOI:10.1007/s11515-016-1427-x
Rachel Babij, Natalia De Marco Garcia
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引用次数: 0

Abstract

Background: Neuronal activity in cortical areas regulates neurodevelopment by interacting with defined genetic programs to shape the mature central nervous system. Electrical activity is conveyed to sensory cortical areas via intracortical and thalamocortical neurons, and includes oscillatory patterns that have been measured across cortical regions.

Objective: In this work, we review the most recent findings about how electrical activity shapes the developmental assembly of functional circuitry in the somatosensory cortex, with an emphasis on interneuron maturation and integration. We include studies on the effect of various neurotransmitters and on the influence of thalamocortical afferent activity on circuit development. We additionally reviewed studies describing network activity patterns.

Methods: We conducted an extensive literature search using both the PubMed and Google Scholar search engines. The following keywords were used in various iterations: "interneuron", "somatosensory", "development", "activity", "network patterns", "thalamocortical", "NMDA receptor", "plasticity". We additionally selected papers known to us from past reading, and those recommended to us by reviewers and members of our lab.

Results: We reviewed a total of 132 articles that focused on the role of activity in interneuronal migration, maturation, and circuit development, as well as the source of electrical inputs and patterns of cortical activity in the somatosensory cortex. 79 of these papers included in this timely review were written between 2007 and 2016.

Conclusions: Neuronal activity shapes the developmental assembly of functional circuitry in the somatosensory cortical interneurons. This activity impacts nearly every aspect of development and acquisition of mature neuronal characteristics, and may contribute to changing phenotypes, altered transmitter expression, and plasticity in the adult. Progressively changing oscillatory network patterns contribute to this activity in the early postnatal period, although a direct requirement for specific patterns and origins of activity remains to be demonstrated.

神经元活动控制躯体感觉皮层中间神经元的发育
背景:大脑皮层区域的神经元活动通过与确定的遗传程序相互作用来调节神经系统的发育,从而形成成熟的中枢神经系统。电活动通过皮层内神经元和丘脑皮层神经元传递到感觉皮层区域,其中包括跨皮层区域测量的振荡模式:在这项工作中,我们回顾了有关电活动如何影响躯体感觉皮层功能电路发育组装的最新发现,重点是神经元间的成熟和整合。我们的研究包括各种神经递质的作用以及丘脑皮层传入活动对电路发育的影响。此外,我们还回顾了描述网络活动模式的研究:我们使用 PubMed 和谷歌学术搜索引擎进行了广泛的文献检索。我们反复使用了以下关键词:"中间神经元"、"躯体感觉"、"发育"、"活动"、"网络模式"、"丘脑皮层"、"NMDA 受体"、"可塑性"。此外,我们还选择了过去阅读过的已知论文,以及审稿人和本实验室成员向我们推荐的论文:我们共审阅了 132 篇文章,这些文章主要研究了活动在神经元间迁移、成熟和电路发育中的作用,以及躯体感觉皮层的电输入来源和皮层活动模式。在这篇及时发表的综述中,有79篇论文是在2007年至2016年间撰写的:神经元活动决定了躯体感觉皮层中间神经元功能电路的发育组装。这种活动影响着发育和获得成熟神经元特征的几乎所有方面,并可能导致表型的改变、递质表达的改变以及成年后的可塑性。在出生后早期,逐渐变化的振荡网络模式有助于这种活动,尽管对特定活动模式和起源的直接要求仍有待证实。
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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期刊介绍: Frontiers in Biology is a journal in the field of biology, covering areas including microbiology, cell biology, biochemistry and molecular biology, developmental biology, genetics, paleontology, botany, zoology, aquatic biology, conservation biology, ecology and other related disciplines.
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