恐惧条件反射的行为和遗传结构及相关表型。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-10-05 DOI:10.1016/j.nlm.2023.107837
D. Zeid , L.R. Seemiller , D.A. Wagstaff , T.J. Gould
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引用次数: 0

摘要

情境恐惧条件反射是巴甫洛夫学习的一种形式,在这一过程中,生物体在用厌恶性刺激进行短暂呈现后,学会害怕先前的中性刺激。在小鼠模型中,冷冻行为通常用于量化习得的恐惧。这个因变量是多个过程的总和,包括联想/结构学习、恐惧和焦虑以及一般活动。为了探索背景恐惧条件反射和相关行为的表型结构,以及可能导致学习和心理健康个体差异的因素,我们在一系列测试中测试了BXD重组近交系菌株和BXD亲本菌株C57BL/6J和DBA/2J,包括运动,焦虑、情境/提示的恐惧条件反射和非联想海马依赖性学习行为。两个先前确定的上下文恐惧条件反射候选基因的海马表达也被量化。使用探索性因素分析(EFA)对行为和基因表达数据进行分析,该分析提出了五种独特的结构,分别代表活动/焦虑/探索、联想恐惧学习、焦虑、休克后冷冻和开阔场地活动表型。关联恐惧学习和一个候选基因Hacd4的表达在因子分析中被归为一个结构。恐惧条件下的电击后冷冻和候选基因Ptprd的表达是另一个独特的构建体,突出了当前数据集中其他恐惧条件变量对脚电击后冷冻的依赖性。EFA结果还表明,与焦虑、一般活动和探索相关的适应性小鼠行为存在共同的表型变异。这些发现有助于理解恐惧学习和潜在的生物学机制,这些机制可能会相互作用,从而在小鼠的恐惧和学习相关行为中产生个体差异。
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Behavioral and genetic architecture of fear conditioning and related phenotypes

Contextual fear conditioning is a form of Pavlovian learning during which an organism learns to fear previously neutral stimuli following their close temporal presentation with an aversive stimulus. In mouse models, freezing behavior is typically used to quantify learned fear. This dependent variable is the sum of multiple processes, including associative/configural learning, fear and anxiety, and general activity. To explore phenotypic constructs underlying contextual fear conditioning and correlated behaviors, as well as factors that may contribute to individual differences in learning and mental health, we tested BXD recombinant inbred strains previously found to show extreme contextual fear conditioning phenotypes and BXD parental strains, C57BL/6J and DBA/2J, in a series of tests including locomotor, anxiety, contextual/cued fear conditioning and non-associative hippocampus-dependent learning behaviors. Hippocampal expression of two previously identified candidate genes for contextual fear conditioning was also quantified. Behavioral and gene expression data were analyzed using exploratory factor analysis (EFA), which suggested five unique constructs representing activity/anxiety/exploration, associative fear learning, anxiety, post-shock freezing, and open field activity phenotypes. Associative fear learning and expression of one candidate gene, Hacd4, clustered as a construct within the factor analysis. Post-shock freezing during fear conditioning and expression of candidate gene Ptprd emerged as another unique construct, highlighting the independence of freezing after footshock from other fear conditioning variables in the current dataset. EFA results additionally suggest shared phenotypic variance in adaptive murine behaviors related to anxiety, general activity, and exploration. These findings inform understanding of fear learning and underlying biological mechanisms that may interact to produce individual differences in fear- and learning-related behaviors in mice.

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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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