斑马鱼白质营养不良症研究进展。

IF 1.7 4区 生物学 Q4 CELL BIOLOGY Development Growth & Differentiation Pub Date : 2024-01-19 DOI:10.1111/dgd.12907
Hung-Yu Shih, Quentin Raas, Joshua L. Bonkowsky
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摘要

遗传性白质营养不良症是以中枢神经系统白质异常为特征的遗传性疾病。虽然每种白质营养不良症都很罕见,但目前有超过 400 种不同类型的白质营养不良症,累计发病率为每 4500 个活产婴儿中就有 1 例。人们对大多数白质营养不良症的病理生理学知之甚少,只有少数几种白质营养不良症有治疗方法,而且发病率和死亡率都很高,这表明该领域亟需改进。目前已针对白质营养不良症开发出多种动物、细胞和诱导多能干细胞衍生模型,但所有模型都存在明显的局限性。许多白质营养不良症缺乏动物模型,而现存的模型往往不能重现关键表型或重现程度参差不齐。斑马鱼(Danio rerio)由于发病早、分子和神经生物学机制保持不变,已越来越多地被用作研究白质营养不良症的疾病模型。在此,我们将重点回顾新的斑马鱼白营养不良症疾病模型或最近取得进展的模型。其中包括白质消失性白质营养不良症、X 连锁肾上腺脑白质营养不良症、泽尔韦格谱系障碍和过氧化物酶体障碍、PSAP 缺乏症、变色性白质营养不良症、克拉伯病、8/4H白质营养不良症、艾卡迪-古蒂耶尔综合征、RNASET2缺陷性囊性白质脑病、遗传性弥漫性球形白质脑病-1(CSF1R相关性白质脑病)以及超罕见白质营养不良症。斑马鱼模型为白质营养不良症领域提供了重要的潜力,包括测试已知基因的新变异;确定新发现基因的因果关系;以及早期识别治疗的先导化合物。此外,使用人源化斑马鱼模型还有一些尚未实现的机会,但这方面的探索还很少。
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Progress in leukodystrophies with zebrafish

Inherited leukodystrophies are genetic disorders characterized by abnormal white matter in the central nervous system. Although individually rare, there are more than 400 distinct types of leukodystrophies with a cumulative incidence of 1 in 4500 live births. The pathophysiology of most leukodystrophies is poorly understood, there are treatments for only a few, and there is significant morbidity and mortality, suggesting a critical need for improvements in this field. A variety of animal, cell, and induced pluripotent stem cell-derived models have been developed for leukodystrophies, but with significant limitations in all models. Many leukodystrophies lack animal models, and extant models often show no or mixed recapitulation of key phenotypes. Zebrafish (Danio rerio) have become increasingly used as disease models for studying leukodystrophies due to their early onset of disease phenotypes and conservation of molecular and neurobiological mechanisms. Here, we focus on reviewing new zebrafish disease models for leukodystrophy or models with recent progress. This includes discussion of leukodystrophy with vanishing white matter disease, X-linked adrenoleukodystrophy, Zellweger spectrum disorders and peroxisomal disorders, PSAP deficiency, metachromatic leukodystrophy, Krabbe disease, hypomyelinating leukodystrophy-8/4H leukodystrophy, Aicardi–Goutières syndrome, RNASET2-deficient cystic leukoencephalopathy, hereditary diffuse leukoencephalopathy with spheroids-1 (CSF1R-related leukoencephalopathy), and ultra-rare leukodystrophies. Zebrafish models offer important potentials for the leukodystrophy field, including testing of new variants in known genes; establishing causation of newly discovered genes; and early lead compound identification for therapies. There are also unrealized opportunities to use humanized zebrafish models which have been sparsely explored.

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来源期刊
Development Growth & Differentiation
Development Growth & Differentiation 生物-发育生物学
CiteScore
4.60
自引率
4.00%
发文量
62
审稿时长
6 months
期刊介绍: Development Growth & Differentiation (DGD) publishes three types of articles: original, resource, and review papers. Original papers are on any subjects having a context in development, growth, and differentiation processes in animals, plants, and microorganisms, dealing with molecular, genetic, cellular and organismal phenomena including metamorphosis and regeneration, while using experimental, theoretical, and bioinformatic approaches. Papers on other related fields are also welcome, such as stem cell biology, genomics, neuroscience, Evodevo, Ecodevo, and medical science as well as related methodology (new or revised techniques) and bioresources. Resource papers describe a dataset, such as whole genome sequences and expressed sequence tags (ESTs), with some biological insights, which should be valuable for studying the subjects as mentioned above. Submission of review papers is also encouraged, especially those providing a new scope based on the authors’ own study, or a summarization of their study series.
期刊最新文献
Quantitative in toto live imaging analysis of apical nuclear migration in the mouse telencephalic neuroepithelium. Labeling and sorting of avian primordial germ cells utilizing Lycopersicon Esculentum lectin. Transition from fetal to postnatal state in the heart: Crosstalk between metabolism and regeneration. Issue Information Mitochondrial DNA replication is essential for neurogenesis but not gliogenesis in fetal neural stem cells
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