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脆性位点WWOX基因与发育中的大脑。

The fragile site WWOX gene and the developing brain.

作者信息

Tabarki Brahim, Al Mutairi Fuad, Al Hashem Amal

机构信息

Division of Pediatric Neurology, Department of Pediatrics, Prince Sultan Military Medical City, 11159 Riyadh, Saudi Arabia

Division of Metabolic and Genetics, Department of Pediatrics, Prince Sultan Military Medical City, 11159 Riyadh, Saudi Arabia.

出版信息

Exp Biol Med (Maywood). 2015 Mar;240(3):400-2. doi: 10.1177/1535370214561952. Epub 2014 Nov 21.

DOI:10.1177/1535370214561952
PMID:25416187
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4935222/
Abstract

WWOX was cloned as a tumor suppressor gene mapping to chromosomal fragile site FRA16D. Loss of WWOX is closely related to tumorigenesis, cancer progression, and therapy resistance. Recent studies demonstrate the growing role of WWOX gene in other human pathologies such as metabolic and nervous system-related conditions. The neurologic phenotype of WWOX mutation includes seizures, ataxia, developmental delay, and spasticity of variable severity. WWOX is a ubiquitous protein with high expression in many tissues including brain, cerebellum, brain stem, and spinal cord. WWOX is highly expressed in different brain regions during murine fetal development and remained unchanged in the cortex and the corpus callosum in adult mice. The mechanism or the putative role of WWOX in the nervous system is still unclear but may include abnormal signaling protein, disruption of neuronal pathways, neuronal differentiation, mitochondrial dysfunction, or apoptosis. Homozygous mutations affecting WWOX in humans are likely to be more described in the future using exome sequencing. The described findings highlight that WWOX plays a critical role in normal central nervous system development and disease. The aim of this review is to summarize the roles of WWOX in the developing brain.

摘要

WWOX基因作为一种肿瘤抑制基因被克隆出来,定位于染色体脆性位点FRA16D。WWOX基因的缺失与肿瘤发生、癌症进展及治疗耐药密切相关。近期研究表明,WWOX基因在其他人类疾病如代谢和神经系统相关疾病中发挥着越来越重要的作用。WWOX基因突变的神经学表型包括癫痫发作、共济失调、发育迟缓以及不同严重程度的痉挛。WWOX是一种普遍存在的蛋白质,在包括脑、小脑、脑干和脊髓在内的许多组织中高表达。在小鼠胚胎发育过程中,WWOX在不同脑区高表达,在成年小鼠的皮质和胼胝体中表达保持不变。WWOX在神经系统中的作用机制或假定作用仍不清楚,但可能包括异常信号蛋白、神经元通路破坏、神经元分化、线粒体功能障碍或细胞凋亡。未来,利用外显子组测序可能会更多地描述人类中影响WWOX的纯合突变。上述研究结果表明,WWOX在正常中枢神经系统发育和疾病中起关键作用。本综述的目的是总结WWOX在发育中的大脑中的作用。

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本文引用的文献

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