The importance of constructive feedback: Implications of top-down regulation in the development of neural circuits.

Neurogenesis (Austin, Tex.) Pub Date : 2017-03-03 eCollection Date: 2017-01-01 DOI:10.1080/23262133.2017.1287553
Andrew D Thompson, Chinfei Chen
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引用次数: 1

Abstract

Neural circuits in sensory pathways develop through a general strategy of overproduction of synapses followed by activity-driven pruning to fine-tune connectivity for optimal function. The early visual pathway, consisting of the retina → visual thalamus → primary visual cortex, has served for decades as a powerful model system for probing the mechanisms and logic of this process. In addition to these feedforward projections, the early visual pathway also includes a substantial feedback component in the form of corticothalamic projections from the deepest layer of primary visual cortex. The role of this feedback in visual processing has been studied extensively in mature animals, yet historically, its role in development has received comparatively little attention. Recent technological advances allowing for selective manipulation of neural activity in development led to the uncovering of a role for feedback in guiding the refinement of the forward projection from retina to visual thalamus. Here we discuss the implications of feedback exerting influence on the development of sensory pathways. We propose several possible advantages to constructing neural circuits with top-down regulation, and discuss the potential significance of this finding for certain neurologic disorders.

Abstract Image

建设性反馈的重要性:自上而下调控在神经回路发育中的意义。
感觉通路中的神经回路是通过突触的过度生产和活动驱动的修剪来微调连接以获得最佳功能的一般策略发展起来的。早期视觉通路由视网膜→视丘脑→初级视觉皮层组成,几十年来一直是探索这一过程的机制和逻辑的强大模型系统。除了这些前馈投射外,早期视觉通路还包括来自初级视觉皮层最深层的皮质丘脑投射形式的大量反馈成分。这种反馈在视觉处理中的作用已经在成熟动物中得到了广泛的研究,但从历史上看,它在发育中的作用相对较少受到关注。最近的技术进步允许在发育过程中选择性地操纵神经活动,从而揭示了反馈在指导从视网膜到视觉丘脑的前投射改进中的作用。在这里,我们讨论了反馈对感觉通路发展的影响。我们提出了构建自上而下调节的神经回路的几个可能的优势,并讨论了这一发现对某些神经疾病的潜在意义。
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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