Alterations of synaptic plasticity and brain oscillation are associated with autophagy induced synaptic pruning during adolescence.

IF 3.1 3区工程技术 Q2 NEUROSCIENCES

Cognitive Neurodynamics Pub Date : 2025-12-01 Epub Date: 2024-12-31 DOI:10.1007/s11571-024-10185-y

Hui Wang, Xiaxia Xu, Zhuo Yang, Tao Zhang

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Abstract

Adolescent brain development is characterized by significant anatomical and physiological alterations, but little is known whether and how these alterations impact the neural network. Here we investigated the development of functional networks by measuring synaptic plasticity and neural synchrony of local filed potentials (LFPs), and further explored the underlying mechanisms. LFPs in the hippocampus were recorded in young (21 ~ 25 days), adolescent (1.5 months) and adult (3 months) rats. Long term potentiation (LTP) and neural synchrony were analyzed. The results showed that the LTP was the lowest in adolescent rats. During development, the theta coupling strength was increased progressively but there was no significant change of gamma coupling between young rats and adolescent rats. The density of dendrite spines was decreased progressively during development. The lowest levels of NR2A, NR2B and PSD95 were detected in adolescent rats. Importantly, it was found that the expression levels of autophagy markers were the highest during adolescent compared to that in other developmental stages. Moreover, there were more co-localization of autophagosome and PSD95 in adolescent rats. It suggests that autophagy is possibly involved in synaptic elimination during adolescence, and further impacts synaptic plasticity and neural synchrony.

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突触可塑性的改变和大脑振荡与青春期自噬诱导的突触修剪有关。

青少年大脑发育的特点是解剖学和生理学上的显著改变，但这些改变是否以及如何影响神经网络却鲜为人知。在此，我们通过测量突触可塑性和局部滤波电位（LFPs）的神经同步性来研究功能网络的发展，并进一步探索其潜在机制。我们记录了幼年（21 ~ 25 天）、青春期（1.5 个月）和成年（3 个月）大鼠海马的 LFPs。分析了长期电位（LTP）和神经同步性。结果显示，青春期大鼠的 LTP 最低。在发育过程中，θ耦合强度逐渐增加，但γ耦合在幼鼠和青春期大鼠之间没有显著变化。树突棘的密度在发育过程中逐渐降低。青春期大鼠的 NR2A、NR2B 和 PSD95 水平最低。重要的是，与其他发育阶段相比，青春期大鼠自噬标记物的表达水平最高。此外，自噬体和 PSD95 在青春期大鼠中有更多的共定位。这表明自噬可能参与了青春期突触的消除，并进一步影响突触可塑性和神经同步性。

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

Cognitive Neurodynamics 医学-神经科学

CiteScore

6.90

自引率

18.90%

发文量

140

审稿时长

12 months

期刊介绍： Cognitive Neurodynamics provides a unique forum of communication and cooperation for scientists and engineers working in the field of cognitive neurodynamics, intelligent science and applications, bridging the gap between theory and application, without any preference for pure theoretical, experimental or computational models. The emphasis is to publish original models of cognitive neurodynamics, novel computational theories and experimental results. In particular, intelligent science inspired by cognitive neuroscience and neurodynamics is also very welcome. The scope of Cognitive Neurodynamics covers cognitive neuroscience, neural computation based on dynamics, computer science, intelligent science as well as their interdisciplinary applications in the natural and engineering sciences. Papers that are appropriate for non-specialist readers are encouraged. 1. There is no page limit for manuscripts submitted to Cognitive Neurodynamics. Research papers should clearly represent an important advance of especially broad interest to researchers and technologists in neuroscience, biophysics, BCI, neural computer and intelligent robotics. 2. Cognitive Neurodynamics also welcomes brief communications: short papers reporting results that are of genuinely broad interest but that for one reason and another do not make a sufficiently complete story to justify a full article publication. Brief Communications should consist of approximately four manuscript pages. 3. Cognitive Neurodynamics publishes review articles in which a specific field is reviewed through an exhaustive literature survey. There are no restrictions on the number of pages. Review articles are usually invited, but submitted reviews will also be considered.