支持精神病跨甲基化理论的多种研究途径:对神经保护的影响

Christine L. Miller
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摘要

在精神病学中,跨甲基化历来指的是一种生化物质的甲基在酶的作用下转移到另一种生化物质上,由此产生的功能会发生巨大变化,例如色胺等生化物质会转化为致幻剂二甲基色胺。内源性甲基化活动的核心是叶酸循环,它在哺乳动物的生物化学中产生主要的可转移甲基。当叶酸循环失调时,往往会导致同型半胱氨酸和 S-腺苷同型半胱氨酸(SAH)的积累,同时伴随着预期生理目标 S-腺苷蛋氨酸(SAM)的短暂减少,这时叶酸循环与心理健康的相关性就显而易见了。本文深入探讨了与精神病症状相关的叶酸循环紊乱的原因,阐述了被激活的替代下游途径,并指出了相关精神病的潜在致病因子--甲基化叔胺 N-甲基缬草酚、N-甲基缬草酚和肾上腺色素,这些物质出现在与致幻和/或神经毒性结果相关的科学报告中。这些化合物的电拓扑状态(E-state)数据已经生成,表明它们与致幻剂非常相似,特别是在其三级胺分子中的氮的 E-state方面。鉴于叶酸循环在转甲基化过程中所起的作用,我们提出了防止向精神病过渡的神经保护策略,包括根据其他相关生化物质的状况补充叶酸可能有害的建议。
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Diverse avenues of research support the transmethylation theory of psychosis: implications for neuroprotection
Transmethylation in the context of psychiatry has historically referred to the enzymatic transfer of a methyl group from one biochemical to another, whose resulting function can change so dramatically that a biochemical like tryptamine, for example, is converted into the hallucinogen dimethyltryptamine. Central to endogenous methylation activity is the folate cycle, which generates the primary transferable methyl groups in mammalian biochemistry. The relevance of this cycle to mental health becomes clear when the cycle is dysregulated, often leading to a buildup of both homocysteine and S-adenosylhomocysteine (SAH), while accompanied by a transient reduction in the intended physiologic target, S-adenosylmethionine (SAM). This paper includes an in-depth review of the causes of folate cycle perturbations associated with psychotic symptoms, expounding on alternative downstream pathways which are activated and pointing toward potential etiologic agents of the associated psychosis, the methylated tertiary amines N-methyl-salsolinol, N-methyl-norsalsolinol, and adrenochrome, which appear in scientific reports concerning their association with hallucinogenic and/or neurotoxic outcomes. Electrotopological state (E-state) data has been generated for these compounds, illustrating a strong similarity with hallucinogens, particularly in terms of the E-state of the nitrogen in their tertiary amine moieties. In light of the role the folate cycle plays in transmethylation, neuroprotective strategies to prevent the transition to psychosis are suggested, including the advisory that folate supplementation can be harmful depending on the status of other relevant biochemicals.
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