慢性间歇性酒精摄入会导致大鼠皮质-纹状体-边缘系统振荡出现性别特异性紊乱。

Chronic intermittent alcohol yields sex-specific disruptions in cortical-striatal-limbic oscillations in rats.

作者信息

Hewitt Kelly A, Nicholson Skylar E, Peterson Madilyn J, Dwiel Lucas L, Henricks Angela M

机构信息

Department of Psychology, Washington State University, Pullman, Washington, USA.

Department of Psychiatry, Geisel School of Medicine at Dartmouth, Hanover, New Hampshire, USA.

出版信息

Alcohol Clin Exp Res (Hoboken). 2025 Aug;49(8):1692-1703. doi: 10.1111/acer.70111. Epub 2025 Jun 29.

DOI:10.1111/acer.70111

PMID:40583190

Abstract

BACKGROUND

There are significant sex differences in the causes and consequences of alcohol misuse, suggesting that sex-specific neurobiological mechanisms might drive drinking. The current study used a rodent model to determine whether chronic intermittent alcohol exposure impacts cortical, striatal, and limbic neural circuits in a sex-specific manner.

METHODS

Female and male Sprague-Dawley rats were trained to self-administer 10% alcohol before implanting bilateral electrodes into the infralimbic cortex (IL), nucleus accumbens shell (NAcSh), and central nucleus of the amygdala (CeA). Half of the rats were then exposed to 4 weeks of chronic intermittent alcohol (CIA) vapor. During acute withdrawal, local field potentials (LFPs) were recorded in the IL, NAcSh, and CeA. Using an unbiased machine learning approach, we built predictive models to determine whether/which LFP features could distinguish CIA-exposed from control rats in each sex. Real and permuted model performance is reported as average area under the receiver operating curve (AUC).

RESULTS

Acute withdrawal was associated with increased alcohol self-administration in males (p < 0.05), but not in females (p > 0.05). Models built from all LFP data performed significantly better than chance in each sex (females AUC: 0.88; males AUC: 0.63). However, when models were restricted, those built on IL and CeA LFPs performed best in females (females AUC: 0.83; males AUC: 0.65), while those built on IL and NAcSh LFPs performed the best in males (males AUC: 0.78; females AUC: 0.57). Individual LFP features that best predicted CIA exposure were also sex-specific, with CeA features predicting CIA exposure in females and corticostriatal features predicting CIA exposure in males.

CONCLUSIONS

These data support the hypothesis that the neural circuits impacted by chronic alcohol exposure are sex-specific, and significantly add to our understanding of the neurobiological underpinnings behind the sex differences observed in alcohol misuse, offering promising biomarkers for future therapeutic research.

摘要

背景

酒精滥用的原因和后果存在显著的性别差异，这表明特定性别的神经生物学机制可能驱动饮酒行为。本研究使用啮齿动物模型来确定慢性间歇性酒精暴露是否以性别特异性方式影响皮质、纹状体和边缘神经回路。

方法

在将双侧电极植入腹内侧前额叶皮质（IL）、伏隔核壳（NAcSh）和杏仁核中央核（CeA）之前，对雌性和雄性Sprague-Dawley大鼠进行训练，使其自我摄入10%的酒精。然后，将一半的大鼠暴露于4周的慢性间歇性酒精（CIA）蒸汽中。在急性戒断期间，记录IL、NAcSh和CeA中的局部场电位（LFP）。使用无偏机器学习方法，我们建立了预测模型，以确定哪些LFP特征可以区分各性别中暴露于CIA的大鼠和对照大鼠。实际和置换后的模型性能以受试者操作特征曲线（AUC）下的平均面积表示。

结果

急性戒断与雄性大鼠酒精自我摄入量增加有关（p < 0.05），而与雌性大鼠无关（p > 0.05）。基于所有LFP数据建立的模型在各性别中表现均显著优于随机水平（雌性AUC：0.88；雄性AUC：0.63）。然而，当模型受到限制时，基于IL和CeA的LFP建立的模型在雌性中表现最佳（雌性AUC：0.83；雄性AUC：0.65），而基于IL和NAcSh的LFP建立的模型在雄性中表现最佳（雄性AUC：0.78；雌性AUC：0.57）。最能预测CIA暴露的个体LFP特征也是性别特异性的，CeA特征预测雌性中的CIA暴露，而皮质纹状体特征预测雄性中的CIA暴露。

结论

这些数据支持以下假设，即受慢性酒精暴露影响的神经回路是性别特异性的，并显著增进了我们对酒精滥用中观察到的性别差异背后神经生物学基础的理解，为未来的治疗研究提供了有前景的生物标志物。

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慢性间歇性酒精摄入会导致大鼠皮质-纹状体-边缘系统振荡出现性别特异性紊乱。

Chronic intermittent alcohol yields sex-specific disruptions in cortical-striatal-limbic oscillations in rats.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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