Acute stress induces different changes on the expression of CB1 receptors in the hippocampus of two lines of male rats differing in their response to stressors

IF 3.3 3区心理学 Q1 BEHAVIORAL SCIENCES Pharmacology Biochemistry and Behavior Pub Date : 2024-10-28 DOI:10.1016/j.pbb.2024.173901

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Abstract

The stress-induced alterations in cognitive processes and psychiatric disorders can be accelerated when acute stressors challenge the hippocampal functions. To address this issue, we used Western Blot (WB) and immunohistochemistry assays to investigate the impact of acute forced swimming (FS) on the expression of the CB1 cannabinoid receptors (CB1R) in the hippocampus (HC) of the male outbred Roman High- (RHA) and Low-Avoidance (RLA) rat lines, one of the most validated genetic models for the study of behavior related to fear/anxiety and stress-induced depression.

The distinct responses to FS confirmed the different behavioral strategies displayed by the two phenotypes when exposed to stressors, with RLA and RHA rats displaying reactive vs. proactive coping, respectively. In control rats, the WB analysis showed lower hippocampal CB1R relative levels in RLA rats than in their RHA counterparts. After FS, RLA rats showed increased CB1R levels in the dorsal HC (dHC) vs. no change in the ventral HC (vHC), while RHA rats displayed no change in the dHC vs. a decrease in the vHC. In the tissue sections from dHC, FS elicited an increment over the control level of CB1R-like immunoreactivity (LI) in the CA1 and CA3 sectors of the Ammon's horn of RLA rats, while in RHA rats the density of CB1R-LI increased only in the CA1 sector. In tissue sections from the vHC, FS caused an increase over the control values of CB1R-LI only in the CA1 sector of RLA rats and a decrement of the CB1R-LI in the CA1 sector and dentate gyrus of control RHA rats.

This study shows for the first time that, in baseline conditions, the CB1Rs are present in the dHC and the vHC of the Roman rat lines with a different distribution along the septo-temporal extension of the HC and that the FS induces rapid and distinct changes in the hippocampal expression of CB1R of RLA vs. RLA rats, in keeping with the view that endocannabinoid signaling may contribute to the molecular mechanisms that regulate the different responses of the dHC vs. the vHC to aversive situations in male Roman rats. Our results also provide evidence supporting the involvement of CB1R in the molecular underpinnings of the susceptibility of RLA rats and the resistance of RHA rats to stress-induced depression-like behavior.

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急性应激会诱导两种对应激反应不同的雄性大鼠海马中 CB1 受体的表达发生不同的变化。

当急性应激源挑战海马功能时，会加速应激诱发的认知过程改变和精神障碍。为了解决这个问题，我们使用 Western Blot（WB）和免疫组化检测法研究了急性强迫游泳（FS）对雄性近交系罗马高（RHA）和低回避（RLA）大鼠海马（HC）中 CB1 大麻受体（CB1R）表达的影响，罗马高（RHA）和低回避（RLA）大鼠是研究恐惧/焦虑和应激诱导抑郁相关行为的最有效遗传模型之一。对 FS 的不同反应证实了这两种表型的大鼠在暴露于压力源时表现出的不同行为策略，RLA 和 RHA 大鼠分别表现出被动应对和主动应对。在对照组大鼠中，WB分析显示RLA大鼠的海马CB1R相对水平低于RHA大鼠。在 FS 之后，RLA 大鼠背侧 HC（dHC）的 CB1R 水平升高，而腹侧 HC（vHC）的 CB1R 水平没有变化，而 RHA 大鼠 dHC 的 CB1R 水平没有变化，而 vHC 的 CB1R 水平有所降低。在 dHC 的组织切片中，FS 在 RLA 大鼠阿蒙角 CA1 和 CA3 区段引起的 CB1R 样免疫反应（LI）比对照水平高，而在 RHA 大鼠中，CB1R-LI 的密度只在 CA1 区段增加。在 vHC 的组织切片中，FS 只导致 RLA 大鼠 CA1 区的 CB1R-LI 比对照值增加，而 RHA 对照组大鼠 CA1 区和齿状回的 CB1R-LI 下降。这项研究首次表明，在基线条件下，CB1Rs存在于罗曼大鼠品系的dHC和vHC中，且沿HC的隔颞延伸分布不同，FS诱导RLA大鼠与RLA大鼠海马CB1Rs表达的快速和不同变化，这与内源性大麻素信号转导可能有助于调节雄性罗曼大鼠dHC与vHC对厌恶情境的不同反应的分子机制的观点一致。我们的研究结果还提供了证据，支持 CB1R 参与了 RLA 大鼠易受应激诱导的抑郁样行为影响和 RHA 大鼠抗应激诱导的抑郁样行为影响的分子基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pharmacology Biochemistry and Behavior 医学-行为科学

CiteScore

6.40

自引率

2.80%

发文量

122

审稿时长

38 days

期刊介绍： Pharmacology Biochemistry & Behavior publishes original reports in the areas of pharmacology and biochemistry in which the primary emphasis and theoretical context are behavioral. Contributions may involve clinical, preclinical, or basic research. Purely biochemical or toxicology studies will not be published. Papers describing the behavioral effects of novel drugs in models of psychiatric, neurological and cognitive disorders, and central pain must include a positive control unless the paper is on a disease where such a drug is not available yet. Papers focusing on physiological processes (e.g., peripheral pain mechanisms, body temperature regulation, seizure activity) are not accepted as we would like to retain the focus of Pharmacology Biochemistry & Behavior on behavior and its interaction with the biochemistry and neurochemistry of the central nervous system. Papers describing the effects of plant materials are generally not considered, unless the active ingredients are studied, the extraction method is well described, the doses tested are known, and clear and definite experimental evidence on the mechanism of action of the active ingredients is provided.