Fear Synchrony of Mouse Dyads: Interaction of Sex Composition and Stress

IF 4 Q2 NEUROSCIENCES

Biological psychiatry global open science Pub Date : 2025-03-18 DOI:10.1016/j.bpsgos.2025.100484

Wataru Ito , Andrew Holmes , Alexei Morozov

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Abstract

Background

Socially coordinated threat responses support a group’s survival. Given the distinct social roles of each sex, social coordination can differ between males and females and mixed-sex groups. We investigated how the sex composition of mouse dyads affected one form of social coordination, the synchronization of conditioned freezing, and assessed how emotional state and social context influenced synchronization by exposure to stress and altering the partner’s familiarity, respectively.

Methods

Mice were fear conditioned individually to an auditory stimulus and tested in same- or opposite-sex dyads with familiar or unfamiliar partners. Independent cohorts were tested after 5 minutes of restraint stress or with prefrontal inactivation by muscimol. Time-series data on freezing bouts were used to compute the synchrony index, freezing properties, and state transitions based on a Markov model.

Results

In same-sex dyads, males exhibited higher synchrony than females. State transition analysis revealed sex-specific synchronization strategies: Males maintained a congruent freezing state primarily by following their partners’ state transitions, whereas females did so by reversing their own. Stress disrupted synchrony in males, which was prevented by prefrontal inactivation, while stress enhanced synchrony in females. Partner’s unfamiliarity reduced synchrony in males but had no effect on females. Conversely, opposite-sex dyads exhibited high levels of synchrony and a unique resilience to stress and unfamiliarity without preferred synchronization strategies.

Conclusions

Mice display sex composition–specific synchronization of threat response and its modulation by stress and social context, providing insights into neuropsychiatric disorders characterized by abnormal threat responses in social contexts with same- and opposite-sex groups.

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雌雄同体的恐惧同步性：性别构成与压力的相互作用

社会协调的威胁反应支持一个群体的生存。由于两性的社会角色不同，社会协调在男性和女性以及混合性别群体之间可能会有所不同。我们研究了雌雄同体的性别构成如何影响一种形式的社会协调，即条件冻结的同步，并评估了情绪状态和社会环境如何分别通过暴露于压力和改变伴侣的熟悉程度来影响同步。方法对被试个体进行听觉刺激的恐惧条件反射，并在同性或异性双性伴侣中进行测试，有熟悉的伴侣或不熟悉的伴侣。独立队列在5分钟约束应激或用muscimol使前额叶失活后进行测试。利用冻结回合的时间序列数据，基于马尔可夫模型计算同步指数、冻结属性和状态转换。结果在同性双胞体中，男性的同步性高于女性。状态转换分析揭示了性别特定的同步策略：雄性主要通过跟随伴侣的状态转换来维持一致的冻结状态，而雌性则通过逆转自己的状态转换来维持。压力破坏了男性的同步性，这是通过前额叶失活来防止的，而压力增强了女性的同步性。伴侣的不熟悉减少了男性的同步性，但对女性没有影响。相反，异性二联体表现出高水平的同步性和对压力和不熟悉的独特恢复力，没有首选的同步策略。结论smice表现出性别构成特异性的威胁反应同步，并受应激和社会环境的调节，为研究同性和异性群体在社会环境中威胁反应异常的神经精神障碍提供了新的思路。

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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