脑脊液接触核的神经生物学特征和疼痛调控的最新研究进展

Jingqiu Wei, He Liu, Fang Zhou, Xianfu Lu, Hongxing Zhang, Licai Zhang
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引用次数: 0

摘要

上皮形成脑脊液屏障,将大脑和脊髓与脑脊液隔开。然而,在中枢神经系统的特定区域,有一些神经元直接与脑脊液接触,包括神经元体、树突或轴突,这就是所谓的 "脑脊液接触神经元系统(CSF-CNS)"。张教授领导的研究团队成功利用霍乱毒素 B 亚单位偶联辣根过氧化物酶复合物(CB-HRP)选择性标记了与脑脊液接触的特异性神经元系统,开创性地将其命名为 "脑脊液接触核",即通常所说的 "CSF 接触核"。脑脊液接触核的发现首次提供了令人信服的形态学证据,证明在脑实质内存在一个与脑脊液建立联系的独特神经结构,从而提示了它在促进脑实质与脑脊液之间的物质和信息交流方面的潜在意义。在对啮齿类动物和非人灵长类动物的脑脊液接触核的形态结构、物质表达、基因分析和功能方面进行了一系列综合研究后,发现脑脊液接触核与大脑皮层和皮层下核之间存在纤维连接,参与疼痛的调控机制、认知、学习和记忆、情绪、成瘾、压力和焦虑反应、内脏活动、嗅觉、视觉处理和感知、听觉处理、感知、运动控制和协调、平衡调节(包括维持体内能量和液体平衡)以及睡眠-觉醒周期的控制和生物节律的同步。目前的实验证实,脑脊液接触核与疼痛、吗啡依赖和戒断、学习和记忆以及压力有关。本文全面综述了 CSF 接触核的神经生物学特征和疼痛调控的最新进展。其目的是为研究大脑和脑脊液之间双向调节通路中的疼痛调节提供新的见解,重点是阐明 CSF 接触核作为桥梁结构的作用。此外,这项研究的目的还在于为未来的疼痛治疗和相关疾病提出创新策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The recent research progress in neurobiological characteristics and pain regulation of the cerebrospinal fluid-contacting nucleus

The ependymal epithelium forms the cerebrospinal fluid barrier, separating the brain and spinal cord from the cerebrospinal fluid. However, in specific regions of the central nervous system, there are neurons that directly interface with the cerebrospinal fluid, including neuronal bodies, dendrites, or axons, This constitutes what is referred to as the "cerebrospinal fluid contacting neurons system (CSF-CNS)". The research team led by Professor Zhang has successfully utilized cholera toxin subunit B coupled horseradish peroxidase complex (CB-HRP) to selectively label the specialized neuron system that interfaces with cerebrospinal fluid, pioneeringly designating it as the "cerebrospinal fluid-contacting nucleus", commonly referred to as the "CSF-contacting nucleus". For the first time, the discovery of the CSF-contacting nucleus provides compelling morphological evidence for the existence of a distinct neural structure within the brain parenchyma that establishes a connection with the cerebrospinal fluid, thereby suggesting its potential significance in facilitating material and information exchange between the brain parenchyma and cerebrospinal fluid. After conducting a comprehensive series of studies on the morphological structure, material expression, gene analysis and functional aspects of the CSF-contacting nucleus in rodents and non-human primates, it has been revealed that there are fibrous connections between the CSF-contacting nucleus and the cerebral cortex and subcortical nuclei being involved in the regulatory mechanisms of pain, cognition, learning and memory, emotion, addiction, stress and anxiety responses, visceral activity, olfaction, vision processing and perception, auditory processing, perception, motor control and coordination, homeostasis regulation including maintenance of body energy and fluid balance, as well as the control of sleep–wake cycles and synchronization of biological rhythms. Current experiments have confirmed that the CSF-contacting nucleus is related to pain, morphine dependence and withdrawal, learning and memory, as well as stress. This present article offers a comprehensive review of the neurobiological characteristics and recent advancements in pain regulation of the CSF-contacting nucleus. The aim is to provide novel insights into the investigation of pain regulation within bidirectional regulatory pathway between the brain and cerebrospinal fluid, with a specific focus on elucidating the role of the CSF-contacting nucleus as a bridge structure. Additionally, the objective of this research is to propose innovative strategies for pain management and associated disorders in the future.

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