急性乙醇会破坏雄性大鼠的条件抑制。

Acute ethanol disrupts conditioned inhibition in the male rat.

机构信息

Center for Studies in Behavioral Neurobiology, Department of Biology, Concordia University, Montréal, QC, H4B 1R7, Canada.

Center for Sexual Health and Intervention, Czech National Institute of Mental Health, Klecany, 25067, Czech Republic.

出版信息

Psychopharmacology (Berl). 2024 Oct;241(10):2061-2071. doi: 10.1007/s00213-024-06618-5. Epub 2024 Jun 1.

DOI:10.1007/s00213-024-06618-5

PMID:38822097

Abstract

RATIONALE

Alcohol can disrupt conditioned sexual inhibition (CSI) established by first-order conditioning in male rats. CSI can also be induced using second-order conditioning, during which male rats are trained to associate a neutral odor with a nonreceptive female. As a result, when given access to two receptive females (one scented and one unscented) during a copulatory preference test, they display CSI toward the scented female.

OBJECTIVE

The present study examined the effect of low-to-moderate doses of alcohol on CSI and brain activation following exposure to alcohol and the olfactory cue alone.

METHODS

Sexually-naïve Long-Evans rats received alternate conditioning sessions with unscented receptive or scented (almond extract) non-receptive females. Following the conditioning phase, males were injected with saline, alcohol 0.5 g/kg or 1 g/kg, 45 min before a copulatory test with two receptive females, with one bearing the olfactory cue. Fos activation was later assessed, following exposure to alcohol and the olfactory cue alone, in several brain regions involved in the expression and regulation of male sexual behavior.

RESULTS

While males in the saline group displayed sexual avoidance towards the scented female, those injected with alcohol before the copulatory test, regardless of the dose, copulated indiscriminately with both females. Subsequent exposure to alcohol and the olfactory cue alone induced different Fos expression between groups in several brain regions.

CONCLUSIONS

Low to moderate doses of alcohol disrupt conditioned sexual inhibition in male rats and induce a differential pattern of neural activation, particularly in regions involved in the expression and regulation of sexual behavior.

摘要

原理

酒精可以破坏雄性大鼠通过一级条件作用建立的条件性性抑制（CSI）。CSI 也可以通过二级条件作用来诱导，在此过程中，雄性大鼠被训练将中性气味与不接受的雌性联系起来。因此，在交配偏好测试中，当雄性大鼠接触到两只接受的雌性（一只有气味，一只没有气味）时，它们会对有气味的雌性表现出 CSI。

目的

本研究检查了低至中等剂量的酒精对 CSI 的影响，以及单独暴露于酒精和嗅觉线索后的大脑激活。

方法

性未成熟的长耳兔接受了与无气味的接受雌性或有气味（杏仁提取物）的不接受雌性的交替条件作用。在条件作用阶段之后，雄性大鼠在与两只接受雌性的交配测试前 45 分钟接受盐水、酒精 0.5 克/公斤或 1 克/公斤的注射，其中一只带有嗅觉线索。随后，在单独暴露于酒精和嗅觉线索后，评估了几个涉及雄性性行为表达和调节的大脑区域中的 Fos 激活。

结果

虽然盐水组的雄性对有气味的雌性表现出性回避，但在交配测试前注射酒精的雄性，无论剂量如何，都会与两只雌性随机交配。随后单独暴露于酒精和嗅觉线索会在几个大脑区域引起不同的 Fos 表达模式。

结论

低至中等剂量的酒精会破坏雄性大鼠的条件性性抑制，并诱导不同的神经激活模式，特别是在涉及性行为表达和调节的区域。

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急性乙醇会破坏雄性大鼠的条件抑制。

Acute ethanol disrupts conditioned inhibition in the male rat.

机构信息

出版信息

RATIONALE

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

原理

目的

方法

结果

结论

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