慢性酒精作用对小鼠的转化结构和功能特征。
Translational Structural and Functional Signatures of Chronic Alcohol Effects in Mice.
机构信息
Integrative Multimodal Imaging in Healthcare team, UMR 7357, Laboratory of Engineering, Informatics and Imaging (ICube); Department of Psychiatry, University of Strasbourg, Strasbourg, France.
Department of Radiology, Medical Physics, University Medical Center Freiburg, Faculty of Medicine, University Freiburg, Freiburg, Germany; Bernard and Irene Schwartz Center for Biomedical Imaging, Department of Radiology, New York University Grossman School of Medicine, New York, New York.
出版信息
Biol Psychiatry. 2022 Jun 15;91(12):1039-1050. doi: 10.1016/j.biopsych.2022.02.013. Epub 2022 Feb 23.
BACKGROUND
Alcohol acts as an addictive substance that may lead to alcohol use disorder. In humans, magnetic resonance imaging showed diverse structural and functional brain alterations associated with this complex pathology. Single magnetic resonance imaging modalities are used mostly but are insufficient to portray and understand the broad neuroadaptations to alcohol. Here, we combined structural and functional magnetic resonance imaging and connectome mapping in mice to establish brain-wide fingerprints of alcohol effects with translatable potential.
METHODS
Mice underwent a chronic intermittent alcohol drinking protocol for 6 weeks before being imaged under medetomidine anesthesia. We performed open-ended multivariate analysis of structural data and functional connectivity mapping on the same subjects.
RESULTS
Structural analysis showed alcohol effects for the prefrontal cortex/anterior insula, hippocampus, and somatosensory cortex. Integration with microglia histology revealed distinct alcohol signatures, suggestive of advanced (prefrontal cortex/anterior insula, somatosensory cortex) and early (hippocampus) inflammation. Functional analysis showed major alterations of insula, ventral tegmental area, and retrosplenial cortex connectivity, impacting communication patterns for salience (insula), reward (ventral tegmental area), and default mode (retrosplenial cortex) networks. The insula appeared as a most sensitive brain center across structural and functional analyses.
CONCLUSIONS
This study demonstrates alcohol effects in mice, which possibly underlie lower top-down control and impaired hedonic balance documented at the behavioral level, and aligns with neuroimaging findings in humans despite the potential limitation induced by medetomidine sedation. This study paves the way to identify further biomarkers and to probe neurobiological mechanisms of alcohol effects using genetic and pharmacological manipulations in mouse models of alcohol drinking and dependence.
背景
酒精作为一种成瘾物质,可能导致酒精使用障碍。在人类中,磁共振成像显示出与这种复杂病理相关的多种结构和功能大脑改变。目前主要使用单一的磁共振成像模式,但不足以描绘和理解广泛的神经适应酒精的过程。在这里,我们结合结构和功能磁共振成像以及连接组映射在小鼠中建立了具有可转化潜力的酒精作用的全脑指纹。
方法
小鼠在接受美托咪定麻醉进行成像之前,经历了 6 周的慢性间歇性饮酒方案。我们对同一批动物的结构数据进行了开放式多元分析,并对功能连接进行了映射。
结果
结构分析显示酒精对前额叶/前岛叶、海马体和体感皮层有影响。与小胶质细胞组织学的整合显示出不同的酒精特征,表明存在晚期(前额叶/前岛叶、体感皮层)和早期(海马体)炎症。功能分析显示岛叶、腹侧被盖区和后扣带回皮层连接的主要改变,影响了突显(岛叶)、奖励(腹侧被盖区)和默认模式(后扣带回皮层)网络的交流模式。岛叶似乎是结构和功能分析中最敏感的大脑中心。
结论
这项研究在小鼠中证明了酒精的作用,这可能是行为水平上记录到的较低的自上而下控制和愉悦平衡受损的基础,并且与人类的神经影像学发现一致,尽管美托咪定镇静可能带来潜在的限制。这项研究为使用遗传和药理学操作在酒精饮用和依赖的小鼠模型中识别进一步的生物标志物和探究酒精作用的神经生物学机制铺平了道路。
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