The neuropsychopharmacology of acetyl-L-carnitine (LAC): basic, translational and therapeutic implications.

Benedetta Bigio, Shofiul Azam, Aleksander A Mathé, Carla Nasca
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Abstract

Mitochondrial metabolism can contribute to nuclear histone acetylation among other epigenetic mechanisms. A central aspect of this signaling pathway is acetyl-L-carnitine (LAC), a pivotal mitochondrial metabolite best known for its role in fatty acid oxidation. Work from our and other groups suggested LAC as a novel epigenetic modulator of brain plasticity and a therapeutic target for clinical phenotypes of depression linked to childhood trauma. Aberrant mitochondrial metabolism of LAC has also been implicated in the pathophysiology of Alzheimer's disease. Furthermore, mitochondrial dysfunction is linked to other processes implicated in the pathophysiology of both major depressive disorders and Alzheimer's disease, such as oxidative stress, inflammation, and insulin resistance. In addition to the rapid epigenetic modulation of glutamatergic function, preclinical studies showed that boosting mitochondrial metabolism of LAC protects against oxidative stress, rapidly ameliorates insulin resistance, and reduces neuroinflammation by decreasing proinflammatory pathways such as NFkB in hippocampal and cortical neurons. These basic and translational neuroscience findings point to this mitochondrial signaling pathway as a potential target to identify novel mechanisms of brain plasticity and potential unique targets for therapeutic intervention targeted to specific clinical phenotypes.

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乙酰-L-肉碱(LAC)的神经精神药理学:基础、转化和治疗意义。
线粒体代谢可促进核组蛋白乙酰化和其他表观遗传机制。乙酰-L-肉碱(LAC)是这一信号通路的核心环节,它是线粒体代谢的一种关键代谢物,因其在脂肪酸氧化中的作用而闻名于世。我们和其他研究小组的工作表明,LAC 是大脑可塑性的新型表观遗传调节剂,也是与童年创伤有关的抑郁症临床表型的治疗靶点。LAC线粒体代谢异常也与阿尔茨海默病的病理生理学有关。此外,线粒体功能障碍还与重度抑郁症和阿尔茨海默病病理生理学中的其他过程有关,如氧化应激、炎症和胰岛素抵抗。除了对谷氨酸能功能进行快速的表观遗传学调节外,临床前研究还表明,促进 LAC 的线粒体代谢可防止氧化应激,迅速改善胰岛素抵抗,并通过减少海马和皮层神经元中的 NFkB 等促炎症通路来减少神经炎症。这些基础和转化神经科学研究结果表明,线粒体信号通路是一种潜在的靶点,可用于确定大脑可塑性的新机制和针对特定临床表型进行治疗干预的潜在独特靶点。
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