Connectivity of the Brain in the Light of Chemogenetic Modulation of Neuronal Activity.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
N N Dygalo
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Abstract

Connectivity is the coordinated activity of the neuronal networks responsible for brain functions; it is detected based on functional magnetic resonance imaging signals that depend on the oxygen level in the blood (blood oxygen level-dependent (BOLD) signals) supplying the brain. The BOLD signal is only indirectly related to the underlying neuronal activity; therefore, it remains an open question whether connectivity and changes in it are only manifestations of normal and pathological states of the brain or they are, to some extent, the causes of these states. The creation of chemogenetic receptors activated by synthetic drugs (designer receptors exclusively activated by designer drugs, DREADDs), which, depending on the receptor type, either facilitate or, on the contrary, inhibit the neuronal response to received physiological stimuli, makes it possible to assess brain connectivity in the light of controlled neuronal activity. Evidence suggests that connectivity is based on neuronal activity and is a manifestation of connections between brain regions that integrate sensory, cognitive, and motor functions. Chemogenetic modulation of the activity of various groups and types of neurons changes the connectivity of the brain and its complex functions. Chemogenetics can be useful in reconfiguring the pathological mechanisms of nervous and mental diseases. The initiated integration, based on the whole-brain connectome from molecular-cellular, neuronal, and synaptic processes to higher nervous activity and behavior, has the potential to significantly increase the fundamental and applied value of this branch of neuroscience.

Abstract Image

从神经元活动的化学遗传学调节看大脑的连接性。
连通性是负责大脑功能的神经元网络的协调活动;基于依赖于供应大脑的血液中的氧水平的功能性磁共振成像信号(血氧水平依赖性(BOLD)信号)来检测。BOLD信号仅与潜在的神经元活动间接相关;因此,它的连接和变化是否只是大脑正常和病理状态的表现,或者在某种程度上是这些状态的原因,仍然是一个悬而未决的问题。由合成药物激活的化学遗传受体(专门由设计药物激活的设计受体,DREADDs)的产生,根据受体类型,促进或相反地抑制神经元对所接收的生理刺激的反应,使得有可能根据受控的神经元活动来评估大脑连接。有证据表明,连接是基于神经元活动的,是大脑区域之间连接的表现,这些区域整合了感觉、认知和运动功能。化学遗传学对不同群体和类型神经元活动的调节改变了大脑的连接及其复杂功能。化学遗传学可用于重新配置神经和精神疾病的病理机制。从分子细胞、神经元和突触过程到更高的神经活动和行为,基于整个大脑连接体的初始整合有可能显著提高神经科学这一分支的基础和应用价值。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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