Molecular and cellular processes underlying Unverricht-Lundborg disease—prospects for early interventions and a cure

Exploration of neuroscience Pub Date : 2024-07-18 DOI:10.37349/en.2024.00051

E. Žerovnik

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Abstract

A short overview of the main features of progressive myoclonus epilepsies (PMEs), such as Lafora disease (LD), neuronal ceroid lipofuscinoses (NCLs), and myoclonus epilepsy with ragged-red fibers (MERRF) is given. The stress of this review paper is put on one of the PME’s, the Unverricht-Lundborg disease (ULD)—EPM1, which is caused by mutations in the human cystatin B gene (stefin B is an alternative protein’s name). However, different other genes/proteins were found mutated in patients presenting with EPM1-like symptoms. By understanding their function and pathophysiological roles, further insights into the underlying processes of EPM1 can be obtained. On a broader scale, common pathophysiological mechanisms exist between ULD, LD and NCLs, such as, reactive glia, synaptic remodeling, neuronal hyperexcitability, impairements in the lysosomal/endocytosis system, cytoskeletal functions, and mitochondria. Oxidative stress is also in common. By understanding the underlying molecular and cellular processes, early interventions, better therapies and eventually, by using modern stem cell, gene editing or replacement methods, a cure can be expected.

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乌弗里希特-伦堡病的分子和细胞过程--早期干预和治愈的前景

本文简要概述了进行性肌阵挛癫痫（PMEs）的主要特征，如拉弗拉病（LD）、神经细胞类脂质沉着病（NCLs）和伴有锯齿状红色纤维的肌阵挛癫痫（MERRF）。本综述论文的重点是其中一种 PME，即 Unverricht-Lundborg 病（ULD）-EPM1，它是由人类胱抑素 B 基因突变引起的（胱抑素 B 是蛋白质的另一个名称）。然而，在出现类似 EPM1 症状的患者中还发现了其他不同基因/蛋白质的突变。通过了解它们的功能和病理生理作用，可以进一步了解EPM1的基本过程。从更广泛的意义上讲，ULD、LD 和 NCL 之间存在共同的病理生理机制，如反应性神经胶质细胞、突触重塑、神经元过度兴奋、溶酶体/内吞系统受损、细胞骨架功能和线粒体。氧化应激也是常见现象。通过了解潜在的分子和细胞过程、早期干预、更好的疗法，以及最终使用现代干细胞、基因编辑或替代方法，有望治愈该病。

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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Exploration of neuroscience

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