脆性 X 综合征小鼠模型中 Fmr1 基因剂量对早期发声和认知的性别特异性调节。

Sex-specific modulation of early life vocalization and cognition by Fmr1 gene dosage in a mouse model of Fragile X Syndrome.

机构信息

INMED, INSERM U1249, Marseille, France.

Aix-Marseille University, Marseille, France.

出版信息

Biol Sex Differ. 2024 Feb 21;15(1):18. doi: 10.1186/s13293-024-00594-3.

DOI:10.1186/s13293-024-00594-3

PMID:38383408

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10880250/

Abstract

BACKGROUND

Pup-dam ultrasonic vocalizations (USVs) are essential to cognitive and socio-emotional development. In autism and Fragile X Syndrome (FXS), disruptions in pup-dam USV communication hint at a possible connection between abnormal early developmental USV communication and the later emergence of communication and social deficits.

METHODS

Here, we gathered USVs from PND 10 FXS pups during a short period of separation from their mothers, encompassing animals of all possible genotypes and both sexes (i.e., Fmr1-/y vs. Fmr1+/y males and Fmr1+/+, +/-, and -/- females). This allowed comparing the influence of sex and gene dosage on pups' communication capabilities. Leveraging DeepSqueak and analyzing vocal patterns, intricate vocal behaviors such as call structure, duration, frequency modulation, and temporal patterns were examined. Furthermore, homing behavior was assessed as a sensitive indicator of early cognitive development and social discrimination. This behavior relies on the use of olfactory and thermal cues to navigate and search for the maternal or nest odor in the surrounding space.

RESULTS

The results show that FMRP-deficient pups of both sexes display an increased inclination to vocalize when separated from their mothers, and this behavior is accompanied by significant sex-specific changes in the main features of their USVs as well as in body weight. Analysis of the vocal repertoire and syntactic usage revealed that Fmr1 gene silencing primarily alters the USVs' qualitative composition in males. Moreover, sex-specific effects of Fmr1 silencing on locomotor activity and homing behavior were observed. FMRP deficiency in females increased activity, reduced nest-reaching time, and extended nest time. In males, it prolonged nest-reaching time and reduced nest time without affecting locomotion.

CONCLUSIONS

These findings highlight the interplay between Fmr1 gene dosage and sex in influencing communicative and cognitive skills during infancy.

摘要

背景

母婴超声发声（USV）对认知和社会情感发展至关重要。在自闭症和脆性 X 综合征（FXS）中，母婴 USV 交流中断暗示了异常早期发育 USV 交流与随后出现的交流和社交缺陷之间可能存在联系。

方法

在这里，我们在 PND 10 FXS 幼崽与母亲短暂分离期间收集 USV，包括所有可能基因型和雌雄两性的动物（即 Fmr1-/y 与 Fmr1+/y 雄性和 Fmr1+/+、+/-和-/-雌性）。这使得我们能够比较性别和基因剂量对幼崽交流能力的影响。利用 DeepSqueak 并分析发声模式，我们检查了复杂的发声行为，如叫声结构、持续时间、频率调制和时间模式。此外，归巢行为被评估为早期认知发展和社会辨别能力的敏感指标。这种行为依赖于利用嗅觉和热线索在周围空间中导航和寻找母体或巢气味。

结果

结果表明，雌雄两性的 FMRP 缺乏幼崽在与母亲分离时表现出增加发声的倾向，这种行为伴随着他们 USV 的主要特征以及体重的显著性别特异性变化。对发声 repertoire 和句法使用的分析表明，Fmr1 基因沉默主要改变了雄性 USV 的定性组成。此外，Fmr1 沉默对运动活动和归巢行为的性别特异性影响也被观察到。FMRP 缺乏在雌性中增加了活动，减少了巢到达时间，并延长了巢时间。在雄性中，它延长了巢到达时间并减少了巢时间，而不影响运动。