肉豆蔻素对实验性酒精相关性神经行为障碍及额叶白质生化病理的治疗作用。

Camilla Homans, Emine B Yalcin, Ming Tong, Gina Gallucci, David Bautista, Natalia Moriel, Suzanne de la Monte
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引用次数: 3

摘要

背景与目的:慢性过量饮酒导致白质变性伴髓磷脂丢失和神经元传导受损。随后髓磷脂的稀少解释了认知、学习和记忆的持续缺陷。相应地,在人类和实验模型中,长期大量或反复酗酒会改变髓磷脂脂质组成,导致神经酰胺的积聚,神经酰胺可能具有神经毒性,并广泛抑制脑功能。方法:本研究研究了慢性+狂饮酒精暴露(8周)和神经酰胺抑制剂肉芽素干预对成年Long-Evans大鼠神经行为功能(开放场、新目标识别和莫里斯水迷宫测试)和额叶白质髓磷脂脂质生化病理的影响。结果:乙醇暴露组在执行功能上存在明显缺陷,焦虑指数增加,空间学习习得障碍明显。肉豆蔻素部分地弥补了乙醇的这些影响,而不影响对照组的行为。用乙醇喂养的大鼠的大脑明显变小,硫脂质的表达普遍减少,额叶白质中检测到的三种鞘磷脂中的两种表达减少。肉豆蔻素通过改善神经行为功能部分解决了这些影响。结论:支持脑白质髓磷脂硫脂和鞘磷脂表达的治疗策略可能有助于修复人类慢性重度饮酒后的认知行为功能障碍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Therapeutic Effects of Myriocin in Experimental Alcohol-Related Neurobehavioral Dysfunction and Frontal Lobe White Matter Biochemical Pathology.

Background & objective: Chronic excessive alcohol consumption causes white matter degeneration with myelin loss and impaired neuronal conductivity. Subsequent rarefaction of myelin accounts for the sustained deficits in cognition, learning, and memory. Correspondingly, chronic heavy or repeated binge alcohol exposures in humans and experimental models alter myelin lipid composition leading to build-up of ceramides which can be neurotoxic and broadly inhibitory to brain functions.

Methods: This study examined the effects of chronic + binge alcohol exposures (8 weeks) and intervention with myriocin, a ceramide inhibitor, on neurobehavioral functions (Open Field, Novel Object Recognition, and Morris Water Maze tests) and frontal lobe white matter myelin lipid biochemical pathology in an adult Long-Evans rat model.

Results: The ethanol-exposed group had significant deficits in executive functions with increased indices of anxiety and impairments in spatial learning acquisition. Myriocin partially remediated these effects of ethanol while not impacting behavior in the control group. Ethanol-fed rats had significantly smaller brains with broadly reduced expression of sulfatides and reduced expression of two of the three sphingomyelins detected in frontal white matter. Myriocin partially resolved these effects corresponding with improvements in neurobehavioral function.

Conclusion: Therapeutic strategies that support cerebral white matter myelin expression of sulfatide and sphingomyelin may help remediate cognitive-behavioral dysfunction following chronic heavy alcohol consumption in humans.

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