Department of Psychology, University at Buffalo SUNY, Buffalo, NY, USA.
Department of Biological Sciences, University at Buffalo SUNY, Buffalo, NY, USA; Neuroscience Program, University at Buffalo SUNY, Buffalo, NY, USA.
Physiol Behav. 2024 Dec 1;287:114699. doi: 10.1016/j.physbeh.2024.114699. Epub 2024 Sep 16.
The neuropeptide, arginine vasopressin (AVP), has been implicated in social communication across a diverse array of species. Many rodents communicate basic behavioral states with negative versus positive valence through high-pitched vocalizations above the human hearing range (ultrasonic vocalizations; USVs). Previous studies have found that Brattleboro (Bratt) rats, which have a mutation in the Avp gene, exhibit deficits in their USVs from the early postnatal period through adolescence, but the magnitude of this effect appears to decrease from the juvenile to adolescent phase. The present study tested whether Bratt rats continue to exhibit USV deficits in adulthood. USVs of adult male and female Bratt and wild type (WT) rats were recorded in two contexts: a novel environment (empty arena) and a social context (arena filled with bedding soiled by same-sex conspecifics). The number, frequency, and duration of 50 kHz USVs were quantified by DeepSqueak after validation with manual scoring. Twenty-two kHz measures were quantified by manual scoring because DeepSqueak failed to accurately detect USVs in this frequency range. Adult Bratt rats did not exhibit deficits in the number of 50 kHz USVs: male Bratt rats emitted similar 50 kHz USVs as male WT rats, whereas female Bratt rats emitted more USVs than female WT rats. USV frequency and duration were altered in adult Bratt rats, but in a context-dependent manner. Twenty-two kHz USVs were less affected by the Bratt mutation. The present study demonstrates how chronic AVP deficiency impacts social communication across the lifespan. The present findings reveal a complex role for AVP in vocal communication, whereby disruption to the Avp gene leads to sex-, context-, and developmental phase-specific effects on the quantity and spectrotemporal characteristics of rat USVs.
神经肽精氨酸加压素(AVP)已被牵涉到多种物种的社会交流中。许多啮齿动物通过高于人类听力范围的高频发声(超声波发声;USVs)来传达具有负面和正面效价的基本行为状态。先前的研究发现,具有 AVP 基因突变的 Brattleboro(Bratt)大鼠在出生后的早期到青春期期间表现出其 USVs 的缺陷,但这种影响的程度似乎从青少年期到青春期阶段逐渐减少。本研究测试了 Bratt 大鼠在成年期是否继续表现出 USV 缺陷。雄性和雌性 Bratt 和野生型(WT)大鼠的成年雄性和雌性 Bratt 和野生型(WT)大鼠的 USVs 在两种环境下进行了记录:一个新环境(空竞技场)和一个社会环境(竞技场充满了同性别同类的脏垫料)。通过 DeepSqueak 对 50 kHz USVs 的数量、频率和持续时间进行了量化,DeepSqueak 在通过手动评分验证后进行了量化。22 kHz 测量值通过手动评分进行量化,因为 DeepSqueak 未能准确检测到该频率范围内的 USVs。成年 Bratt 大鼠在 50 kHz USVs 的数量上没有表现出缺陷:雄性 Bratt 大鼠发出的 50 kHz USVs 与雄性 WT 大鼠相似,而雌性 Bratt 大鼠发出的 USVs 多于雌性 WT 大鼠。成年 Bratt 大鼠的 USV 频率和持续时间发生了变化,但具有上下文依赖性。22 kHz USVs 受 Bratt 突变的影响较小。本研究展示了慢性 AVP 缺乏如何影响整个生命周期的社会交流。本研究结果揭示了 AVP 在声音通讯中的复杂作用,即破坏 Avp 基因导致 AVP 基因对大鼠 USVs 的数量和光谱时间特征产生性别、环境和发育阶段特异性影响。
