ChAT::Cre transgenic rats show sex-dependent altered fear behaviors, ultrasonic vocalizations and cholinergic marker expression

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sarah C. Tryon, Iris M. Sakamoto, Kris F. Kaigler, Gabriella Gee, Jarrett Turner, Katherine Bartley, Jim R. Fadel, Marlene A. Wilson
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Abstract

The cholinergic system is a critical regulator of Pavlovian fear learning and extinction. As such, we have begun investigating the cholinergic system's involvement in individual differences in cued fear extinction using a transgenic ChAT::Cre rat model. The current study extends behavioral phenotyping of a transgenic ChAT::Cre rat line by examining both freezing behavior and ultrasonic vocalizations (USVs) during a Pavlovian cued fear learning and extinction paradigm. Freezing, 22 kHz USVs, and 50 kHz USVs were compared between male and female transgenic ChAT::Cre+ rats and their wildtype (Cre-) littermates during fear learning, contextual and cue-conditioned fear recall, cued fear extinction, and generalization to a novel tone. During contextual and cued fear recall ChAT::Cre+ rats froze slightly more than their Cre- littermates, and displayed significant sex differences in contextual and cue-conditioned freezing, 22 kHz USVs, and 50 kHz USVs. Females showed more freezing than males in fear recall trials, but fewer 22 kHz distress calls during fear learning and recall. Females also produced more 50 kHz USVs during exposure to the testing chambers prior to tone (or shock) presentation compared with males, but this effect was blunted in ChAT::Cre+ females. Corroborating previous studies, ChAT::Cre+ transgenic rats overexpressed vesicular acetylcholine transporter immunolabeling in basal forebrain, striatum, basolateral amygdala, and hippocampus, but had similar levels of acetylcholinesterase and numbers of ChAT+ neurons as Cre- rats. This study suggests that variance in behavior between ChAT::Cre+ and wildtype rats is sex dependent and advances theories that distinct neural circuits and processes regulate sexually divergent fear responses.

Abstract Image

ChAT: Cre转基因大鼠表现出性别依赖性的恐惧行为、超声发声和胆碱能标记物表达的改变
胆碱能系统是巴甫洛夫恐惧学习和消退的重要调节因子。因此,我们已经开始使用转基因ChAT::Cre大鼠模型研究胆碱能系统在提示恐惧消退的个体差异中的作用。目前的研究扩展了转基因ChAT::Cre大鼠系的行为表型,通过在巴甫洛夫提示的恐惧学习和灭绝范式中检查冷冻行为和超声发声(USVs)。冻结,22 kHz USV和50 在恐惧学习、上下文和线索条件下的恐惧回忆、线索恐惧消退和新语气的概括过程中,比较了雄性和雌性转基因ChAT::Cre+大鼠及其野生型(Cre-)同窝仔之间的kHz USV。在上下文和提示恐惧回忆过程中,ChAT::Cre+大鼠的冷冻量略高于同窝的Cre大鼠,并且在上下文和线索条件下的冷冻中表现出显著的性别差异,22 kHz USV和50 kHz USVs。在恐惧回忆试验中,雌性比雄性表现出更多的冷冻,但只有不到22 在恐惧学习和回忆过程中发出千赫的求救信号。雌性也生产了50多个 与男性相比,在出现音调(或电击)之前暴露于测试室期间的kHz USVs,但这种影响在ChAT::Cre+女性中减弱。ChAT::Cre+转基因大鼠在基底前脑、纹状体、基底外侧杏仁核和海马中过表达囊泡乙酰胆碱转运蛋白免疫标记,但乙酰胆碱酯酶水平和ChAT+神经元数量与Cre-大鼠相似。这项研究表明,ChAT::Cre+和野生型大鼠之间的行为差异是性别依赖性的,并提出了不同的神经回路和过程调节性差异恐惧反应的理论。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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