在脆性 X 综合征小鼠模型中,Fmr1 基因剂量对生命早期发声和认知的性别特异性调控

IF 4.9 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Gabriele Giua, Daniela Iezzi, Alba Caceres-Rodriguez, Benjamin Strauss, Pascale Chavis, Olivier J. Manzoni
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引用次数: 0

摘要

幼犬的超声波发声(USV)对认知和社会情感的发展至关重要。在自闭症和脆性 X 综合征(FXS)中,幼犬与母犬之间的 USV 交流中断暗示着早期发育异常的 USV 交流与后来出现的交流和社交障碍之间可能存在联系。在此,我们收集了 PND 10 FXS 幼崽在与母亲短暂分离期间的 USV,其中包括所有可能的基因型和性别(即 Fmr1-/y 与 Fmr1+/y 雄性和 Fmr1+/+ 、+/- 和 -/- 雌性)。这样就可以比较性别和基因剂量对幼鼠交流能力的影响。通过利用 DeepSqueak 和分析发声模式,研究了复杂的发声行为,如叫声结构、持续时间、频率调制和时间模式。此外,还对归巢行为进行了评估,将其作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暗示来导航和寻找周围空间中的母体或巢穴气味。结果表明,FMRP缺失的雌雄幼鼠在与母亲分离时都会表现出更强烈的发声倾向,而且伴随着这种行为,其USV的主要特征和体重也会发生显著的性别差异。对发声曲目和句法用法的分析表明,Fmr1基因沉默主要改变了雄性USV的质量组成。此外,还观察到Fmr1基因沉默对运动活动和归巢行为的性别特异性影响。在雌性中,FMRP的缺失会增加活动量、减少筑巢时间并延长筑巢时间。在雄性中,它延长了筑巢时间并缩短了筑巢时间,但不影响运动。这些发现突显了Fmr1基因剂量和性别在影响婴儿期交流和认知能力方面的相互作用。脆性X综合征(FXS)是自闭症谱系障碍(ASD)的主要遗传病因,由与X染色体相连的Fmr1基因突变引起。幼鼠与母鼠之间的USV交流和认知技能障碍可能与ASD后来出现的交流和社交障碍有关。在与母亲短暂分离期间,我们从 10 天大的 FXS 幼崽(包括所有可能的基因型和男女)身上收集了 USV。我们利用先进的深度学习系统 DeepSqueak 来研究发声模式和复杂的发声行为,包括叫声结构、持续时间、频率调制及其时间模式。归巢是早期认知发展和社会辨别能力的敏感指标,我们在幼鼠13岁时对其进行了评估。结果表明,FXS幼鼠在与母亲分离时,雌雄均表现出更强的发声倾向。对发声曲目及其句法用法的研究表明,Fmr1基因的沉默主要改变了雄性幼鼠超声波交流的质量组成。在USV中观察到的性别特异性变化伴随着体重的改变。在归巢行为方面,FMRP的缺失会导致活动、到达巢穴的时间和筑巢时间出现相反的缺陷,这取决于性别。综上所述,这些发现凸显了Fmr1基因剂量和性别在塑造婴儿期交流和认知能力方面的相互作用。我们研究了脆性X综合征(FXS)小鼠模型的早期沟通和认知能力,脆性X综合征是自闭症谱系障碍的主要遗传原因,由X染色体上的Fmr1基因突变引起。在与母亲短暂分离期间,分别从10天和13天大的FXS幼崽(包括所有可能的基因型和雌雄幼崽)身上收集了超声波发声(USV)和归家行为。雄性和雌性FXS幼鼠在与母亲分离时都表现出更强的发声倾向,同时其USV、归家行为和体重的主要特征也发生了显著的性别特异性改变。Fmr1基因的沉默主要影响雄性动物超声波通讯的质量组成。在归巢行为方面,FMRP基因的缺失会导致活动量、到达巢穴的时间和筑巢时间出现相反的缺陷,这取决于性别。Fmr1基因剂量与性别之间的相互作用影响了婴儿早期的交流和认知。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sex-specific modulation of early life vocalization and cognition by Fmr1 gene dosage in a mouse model of Fragile X Syndrome
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. 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. 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. These findings highlight the interplay between Fmr1 gene dosage and sex in influencing communicative and cognitive skills during infancy. In this study, we investigated ultrasonic vocalizations (USVs) and homing behavior in a mouse model of Fragile X Syndrome (FXS), a leading genetic cause of autism spectrum disorder (ASD) caused by a mutation of the X-chromosome linked Fmr1 gene. Disruptions in pup-dam USV communication and cognitive skills may be linked to the later emergence of communication and social deficits in ASD. USVs were collected from 10-day-old FXS pups of all possible genotypes and both sexes during a short period of separation from their mothers. We utilized DeepSqueak, an advanced deep learning system, to examine vocal patterns and intricate vocal behaviors, including call structure, duration, frequency modulation, and their temporal patterns. Homing, a sensitive indicator of early cognitive development and social discrimination was assessed at P13. The results showed that FXS pups of both sexes displayed an increased inclination to vocalize when separated from their mothers. Examination of the vocal repertoire and its syntactic usage revealed that the silencing of the Fmr1 gene primarily alters the qualitative composition of ultrasonic communication in males. The sex-specific changes observed in USVs were accompanied by modifications in body weight. Regarding homing behavior, the deficiency of FMRP led to opposite deficits in activity, time to reach the nest, and nesting time depending on sex. Taken together, these findings highlight the interplay between Fmr1 gene dosage and sex in shaping communication and cognition during infancy. We investigated early life communicative and cognitive abilities in a mouse model of Fragile X Syndrome (FXS), a prominent genetic cause of autism spectrum disorder resulting from a mutation in the Fmr1 gene on the X-chromosome. Ultrasonic vocalizations (USVs) and homing behavior were collected respectively from 10- and 13-day-old FXS pups, encompassing all possible genotypes and both sexes, during a brief separation from their mothers. Both male and female FXS pups exhibited an increased inclination to vocalize when separated from their mothers, along with significant sex-specific alterations in the primary characteristics of their USVs, homing behavior, and body weight. Silencing of the Fmr1 gene primarily influenced the qualitative composition of ultrasonic communication in males. In homing behavior, FMRP’s deficiency led to contrary deficits in activity, time to reach the nest, and nesting time depending on sex. The interaction between Fmr1 gene dosage and sex impacted on communication and cognition during early infancy.
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来源期刊
Biology of Sex Differences
Biology of Sex Differences ENDOCRINOLOGY & METABOLISM-GENETICS & HEREDITY
CiteScore
12.10
自引率
1.30%
发文量
69
审稿时长
14 weeks
期刊介绍: Biology of Sex Differences is a unique scientific journal focusing on sex differences in physiology, behavior, and disease from molecular to phenotypic levels, incorporating both basic and clinical research. The journal aims to enhance understanding of basic principles and facilitate the development of therapeutic and diagnostic tools specific to sex differences. As an open-access journal, it is the official publication of the Organization for the Study of Sex Differences and co-published by the Society for Women's Health Research. Topical areas include, but are not limited to sex differences in: genomics; the microbiome; epigenetics; molecular and cell biology; tissue biology; physiology; interaction of tissue systems, in any system including adipose, behavioral, cardiovascular, immune, muscular, neural, renal, and skeletal; clinical studies bearing on sex differences in disease or response to therapy.
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