评估大鼠群体动态的新方法揭示了 KM 大鼠行为传染性的缺陷

Kirill Smirnov, Ilya Starkov, Olga Sysoeva, Inna Midzyanovskaya
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摘要

行为复制是群体行动中的一个关键过程,但对于患有自闭症谱系障碍(ASD)的个体来说却具有挑战性。我们研究了克鲁申基-莫洛德金纳(KM)大鼠(16 只)与对照组 Wistar 大鼠(15 只)的行为传染(或行为的本能复制),KM 大鼠是 ASD 的新型啮齿动物模型。实验前 10-14 天,随机挑选一只健康的 Wistar 雄性大鼠("示范大鼠")引入实验大鼠("观察者")的家笼,成为实验组的一员。为了实施行为传染实验,我们使用了 IntelliCage 系统,在该系统中,大鼠可以与 5-6 只大鼠生活在一起,并且可以完全控制它们喝水的次数。在实验过程中,我们将示范鼠从 IntelliCage 中取出,对其进行 24 小时的禁水,然后将其放回。结果,缺水示范鼠的饮水行为引发了整个实验组的激活行为。与 Wistar 对照组不同的是,KM 观察员对饮水瓶的访问较少,尤其缺乏检查访问。与此相反,对照组则表现出对水角的动态、级联式访问。与 Wistar 大鼠相比,KM 大鼠中被激活的观察者比例明显较低,而且它们不会模仿其他观察者。因此,KM 大鼠的行为传染模式减弱,凸显了这种 ASD 模型的社交缺陷。这项研究表明,在自动化、无创的装置中测量行为传染的群体动态,为了解啮齿类动物的社会行为,尤其是研究 ASD 模型的社会性缺陷,提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel method to assess group dynamics in rats reveals deficits in behavioral contagion in KM rats
Behavioral copying is a key process in group actions, but it is challenging for individuals with Autism Spectrum Disorder (ASD). We investigated behavioral contagion, or instinctual replication of behaviors, in Krushinky-Molodkina (KM) rats (n=16), a new rodent model for ASD, compared to control Wistar rats (n=15). A randomly chosen healthy Wistar male ("demonstrator rat") was introduced to the homecage of experimental rats ("observers") 10-14 days before the experiments to become a member of the group. For the implementation of the behavioral contagion experiment, we used the IntelliCage system, where rats can live in a group of 5-6 rats and their water visits can be fully controlled. During the experiment, the demonstrator was taken out of IntelliCage for 24 hours of water deprivation and then placed back. As a result, a drinking behavior of the water-deprived demonstrator rat prompted activated behaviors in the whole group. Unlike the Wistar controls, KM observers showed fewer visits to the drinking bottles, particularly lacking inspection visits. The control group, in contrast, exhibited a dynamic, cascade-like visiting of the water corners. The proportion of activated observers in KM rats was significantly lower, as compared to Wistar ones, and they did not mimic other observer rats. KM rats, therefore, displayed an attenuated pattern of behavioral contagion, highlighting social deficits in this ASD model. This study suggests that measuring group dynamics of behavioral contagion in an automated, non-invasive setup offers valuable insights into social behavior in rodents, particularly for studying social deficits in ASD models.
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