Hypomyelinating Leukodystrophy 14 (HLD14)-Related UFC1 p.Arg23Gln Decreases Cell Morphogenesis: A Phenotype Reversable with Hesperetin.

Medicines (Basel, Switzerland) Pub Date : 2025-01-16 DOI:10.3390/medicines12010002

Yuri Ichihara, Maho Okawa, Minori Minegishi, Hiroaki Oizumi, Masahiro Yamamoto, Katsuya Ohbuchi, Yuki Miyamoto, Junji Yamauchi

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Abstract

Introduction: In the central nervous system (CNS), proper interaction between neuronal and glial cells is crucial for the development of mature nervous tissue. Hypomyelinating leukodystrophies (HLDs) are a group of genetic CNS disorders characterized by hypomyelination and/or demyelination. In these conditions, genetic mutations disrupt the biological functions of oligodendroglial cells, which are responsible for wrapping neuronal axons with myelin sheaths. Among these, an amino acid mutation of the ubiquitin-fold modifier conjugating enzyme 1 (UFC1) is associated with HLD14-related disease, characterized by hypomyelination and delayed myelination in the brain. UFC1 is a critical component of the UFMylation system, functioning similarly to E2-conjugating enzymes in the ubiquitin-dependent protein degradation system.

Methodology: We describe how a missense mutation in UFC1 (p.Arg23Gln) leads to the aggregation of UFC1 primarily in lysosomes in FBD-102b cells, which are undergoing oligodendroglial cell differentiation.

Results: Cells with mutated UFC1 exhibit reduced Akt kinase phosphorylation and reduced expression of differentiation and myelination marker proteins. Consistently, these cells exhibit impaired morphological differentiation with a reduced ability to extend widespread membranes. Interestingly, hesperetin, a citrus flavonoid with known neuroprotective properties, was found to restore differentiation abilities in cells with the UFC1 mutation.

Conclusions: These findings indicate that the HLD14-related mutation in UFC1 causes its lysosomal aggregation, impairing its morphological differentiation. Furthermore, the study highlights potential therapeutic insights into the pathological molecular and cellular mechanisms underlying HLD14 and suggests hesperetin as a promising candidate for treatment.

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低髓鞘性白质营养不良14 （HLD14）相关UFC1 p.a g23gln降低细胞形态发生：Hesperetin可逆转表型

在中枢神经系统（CNS）中，神经元和胶质细胞之间的相互作用对成熟神经组织的发育至关重要。低髓鞘性白质营养不良症（hld）是一组以低髓鞘和/或脱髓鞘为特征的遗传性中枢神经系统疾病。在这些情况下，基因突变破坏了少突胶质细胞的生物学功能，这些细胞负责用髓鞘包裹神经元轴突。其中，泛素折叠修饰物偶联酶1 （UFC1）的氨基酸突变与hld14相关疾病有关，其特征是大脑中髓鞘形成减少和髓鞘形成延迟。UFC1是UFMylation系统的关键组成部分，其功能类似于泛素依赖蛋白降解系统中的e2偶联酶。方法：我们描述了UFC1的错义突变（p.a g23gln）如何导致UFC1主要聚集在FBD-102b细胞的溶酶体中，这些细胞正在经历少突胶质细胞分化。结果：UFC1突变的细胞表现出Akt激酶磷酸化降低，分化和髓鞘标记蛋白表达降低。一致地，这些细胞表现出受损的形态分化与能力降低延伸广泛的膜。有趣的是，橙皮苷，一种已知具有神经保护特性的柑橘类黄酮，被发现可以恢复UFC1突变细胞的分化能力。结论：这些发现表明，hld14相关突变导致UFC1溶酶体聚集，损害其形态分化。此外，该研究强调了HLD14的病理分子和细胞机制的潜在治疗见解，并表明橙皮苷是一种有希望的治疗候选者。

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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Medicines (Basel, Switzerland)

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6 weeks