The selfish network: how the brain preserves behavioral function through shifts in neuronal network state.

IF 14.6 1区 医学 Q1 NEUROSCIENCES
Trends in Neurosciences Pub Date : 2024-04-01 Epub Date: 2024-03-13 DOI:10.1016/j.tins.2024.02.005
Albrecht Stroh, Susann Schweiger, Jan-Marino Ramirez, Oliver Tüscher
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引用次数: 0

Abstract

Neuronal networks possess the ability to regulate their activity states in response to disruptions. How and when neuronal networks turn from physiological into pathological states, leading to the manifestation of neuropsychiatric disorders, remains largely unknown. Here, we propose that neuronal networks intrinsically maintain network stability even at the cost of neuronal loss. Despite the new stable state being potentially maladaptive, neural networks may not reverse back to states associated with better long-term outcomes. These maladaptive states are often associated with hyperactive neurons, marking the starting point for activity-dependent neurodegeneration. Transitions between network states may occur rapidly, and in discrete steps rather than continuously, particularly in neurodegenerative disorders. The self-stabilizing, metastable, and noncontinuous characteristics of these network states can be mathematically described as attractors. Maladaptive attractors may represent a distinct pathophysiological entity that could serve as a target for new therapies and for fostering resilience.

自私的网络:大脑如何通过神经元网络状态的变化来保持行为功能。
神经元网络具有调节其活动状态以应对干扰的能力。神经元网络如何以及何时从生理状态转变为病理状态,从而导致神经精神疾病的出现,这在很大程度上仍是未知数。在这里,我们提出,神经元网络即使以神经元丢失为代价,也能从本质上保持网络的稳定性。尽管新的稳定状态可能是不适应的,但神经网络可能不会逆转回与更好的长期结果相关的状态。这些不适应状态通常与神经元过度活跃有关,是活动依赖性神经退化的起点。网络状态之间的转换可能发生得很快,而且是以离散的步骤而不是连续的方式进行,尤其是在神经退行性疾病中。这些网络状态的自稳定、易变和非连续特性可以用吸引子来进行数学描述。不适应性吸引子可能代表一种独特的病理生理学实体,可作为新疗法和促进恢复力的目标。
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
Trends in Neurosciences
Trends in Neurosciences 医学-神经科学
CiteScore
26.50
自引率
1.30%
发文量
123
审稿时长
6-12 weeks
期刊介绍: For over four decades, Trends in Neurosciences (TINS) has been a prominent source of inspiring reviews and commentaries across all disciplines of neuroscience. TINS is a monthly, peer-reviewed journal, and its articles are curated by the Editor and authored by leading researchers in their respective fields. The journal communicates exciting advances in brain research, serves as a voice for the global neuroscience community, and highlights the contribution of neuroscientific research to medicine and society.
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