A physical perspective on lithium therapy

arXiv - QuanBio - Quantitative Methods Pub Date : 2024-08-27 DOI:arxiv-2409.04455

Dana Kamp

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Abstract

Lithium salts have strong medical properties in neurological disorders such as bipolar disorder and primary headaches, and has recently gathered attention due to its preventive effect on viral attacks. Though the therapeutic effect of lithium was documented by Cade already in the late 1940s, the underlying mechanism of action is still disputed. Acute lithium exposure has an activating effect on excitable organic tissue and organisms, and is highly toxic. The therapeutic effect is achieved through long-term exposure to lower doses, where it, opposite to acute doses, alleviates excessive cellular activity, and induces a strong metabolic response in the organism, with large changes in phospholipid and cholesterol expression. This review investigates how lithium ions affect membrane composition and function, and how lithium response might in fact be the body's attempt to counteract the physical presence of lithium ions at cell level. The presence of lithium ions strongly affects lipid conformation and membrane phase unlike other alkali ions, with consequences for membrane permeability, buffer property and excitability, and ideas for further research in microbiology and drug development are discussed.

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从物理角度看锂疗法

锂盐对躁狂症和原发性头痛等神经系统疾病有很强的医疗作用，最近又因其对病毒发作的预防作用而备受关注。虽然锂盐的治疗作用早在 20 世纪 40 年代末就被凯德记录在案，但其基本作用机制仍存在争议。急性锂暴露对可兴奋的有机组织和生物体有激活作用，毒性很强。长期接触较低剂量的锂可达到治疗效果，与急性剂量相反，锂可减轻细胞的过度活动，并引起机体强烈的新陈代谢反应，使磷脂和胆固醇的表达发生巨大变化。这篇综述探讨了锂离子如何影响膜的组成和功能，以及锂反应实际上是机体如何在细胞水平上对抗锂离子的物理存在。与其他碱离子不同，锂离子的存在会强烈影响脂质构象和膜相，从而对膜的通透性、缓冲特性和兴奋性产生影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuanBio - Quantitative Methods

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