The Effects of Early Life Social Isolation Are Sex-Specific

IF 4 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Neurochemistry Pub Date : 2025-09-20 DOI:10.1111/jnc.70239

E. A. Rybnikova, N. N. Nalivaeva

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Abstract

Early life social isolation (ESI) is a severe stress that disrupts brain development, contributing to susceptibility to various stressors and predisposition to neurological and other diseases in later life. In rats, ESI can be modeled by maternal separation of pups, allowing for the study of its after-effects at different stages of animal development. This editorial highlights an article in the current issue of the Journal of Neurochemistry that reports the long-lasting behavioral effects of mild ESI (brief repetitive episodes of pup separation during the third week of postnatal development of rats) and the changes in the BDNF system of the nucleus accumbens. In particular, this study focused on ESI effects dependent on animal sex. This allowed the authors to show that mild ESI impaired social reward processing only in male rats and that this effect was accompanied by persistent downregulation of BDNF/TrkB signaling in the nucleus accumbens. In contrast, ESI in females had no behavioral consequences in the studied paradigm, although it led to increased BDNF/TrkB signaling. These findings indicate that male rats are more susceptible to maternal separation stress than females and highlight the important role of the BDNF system in the formation of this vulnerability.

Abstract Image

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早期社会孤立的影响是性别特有的。

生命早期社会孤立是一种严重的压力，会破坏大脑发育，导致对各种压力源的易感性，并在以后的生活中易患神经系统疾病和其他疾病。在大鼠中，ESI可以通过母鼠幼崽分离来建模，从而研究其在动物发育不同阶段的后效。这篇社论强调了最新一期《神经化学杂志》上的一篇文章，该文章报道了轻度ESI（大鼠出生后第三周短暂重复的幼犬分离）的长期行为影响和伏隔核BDNF系统的变化。本研究特别关注了动物性别依赖性的ESI效应。这使得作者能够证明轻度ESI仅在雄性大鼠中损害社会奖励处理，并且这种影响伴随着伏隔核BDNF/TrkB信号的持续下调。相比之下，在研究范式中，ESI在女性中没有行为后果，尽管它会导致BDNF/TrkB信号的增加。这些发现表明雄性大鼠比雌性大鼠更容易受到母鼠分离压力的影响，并强调了BDNF系统在这种脆弱性形成中的重要作用。

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

Journal of Neurochemistry 医学-神经科学

CiteScore

9.30

自引率

2.10%

发文量

181

审稿时长

2.2 months

期刊介绍： Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.