透明触摸：来自模型系统对躯体感觉神经支配的表皮控制的见解。

Transparent Touch: Insights From Model Systems on Epidermal Control of Somatosensory Innervation.

作者信息

Yin Chang, Peterman Eric, Rasmussen Jeffrey P, Parrish Jay Z

机构信息

Department of Biology, University of Washington, Seattle, WA, United States.

出版信息

Front Cell Neurosci. 2021 May 31;15:680345. doi: 10.3389/fncel.2021.680345. eCollection 2021.

DOI:10.3389/fncel.2021.680345

PMID:34135734

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8200473/

Abstract

Somatosensory neurons (SSNs) densely innervate our largest organ, the skin, and shape our experience of the world, mediating responses to sensory stimuli including touch, pressure, and temperature. Historically, epidermal contributions to somatosensation, including roles in shaping innervation patterns and responses to sensory stimuli, have been understudied. However, recent work demonstrates that epidermal signals dictate patterns of SSN skin innervation through a variety of mechanisms including targeting afferents to the epidermis, providing instructive cues for branching morphogenesis, growth control and structural stability of neurites, and facilitating neurite-neurite interactions. Here, we focus onstudies conducted in worms (), fruit flies (), and zebrafish (): prominent model systems in which anatomical and genetic analyses have defined fundamental principles by which epidermal cells govern SSN development.

摘要

躯体感觉神经元（SSNs）密集地支配着我们最大的器官——皮肤，并塑造我们对世界的感知，介导对包括触摸、压力和温度在内的感觉刺激的反应。从历史上看，表皮对躯体感觉的贡献，包括在塑造神经支配模式和对感觉刺激的反应中的作用，一直未得到充分研究。然而，最近的研究表明，表皮信号通过多种机制决定SSN皮肤神经支配模式，这些机制包括将传入神经导向表皮、为分支形态发生、神经突的生长控制和结构稳定性提供指导性线索，以及促进神经突-神经突相互作用。在这里，我们重点关注在蠕虫（）、果蝇（）和斑马鱼（）中进行的研究：这些著名的模型系统中，解剖学和遗传学分析已经确定了表皮细胞控制SSN发育的基本原理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e07/8200473/5dfa36bfb794/fncel-15-680345-g0001.jpg

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透明触摸：来自模型系统对躯体感觉神经支配的表皮控制的见解。

Transparent Touch: Insights From Model Systems on Epidermal Control of Somatosensory Innervation.

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