KIF5A和KLC1在阿尔茨海默病中的表达:关系和遗传影响

Kelly Hares, S. Miners, N. Scolding, S. Love, A. Wilkins
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引用次数: 2

摘要

背景:轴突运输的早期紊乱,在总体神经病理学发病之前,发生在包括阿尔茨海默病在内的一系列神经退行性疾病中。运动蛋白超家族运动蛋白(KIFs)负责各种细胞货物轴突内的蛋白质顺行运输,包括突触和结构蛋白。失调的KIF表达与阿尔茨海默病病理有关,而激酶-轻链-1 (KLC1)内的遗传多态性与阿尔茨海默病易感性有关。我们检测了KLC1在AD中的表达,以及KLC1运动复合物(KIF5A)和易感基因型的表达。方法:对47例AD患者和39例对照患者中额叶皮层KLC1和KIF5A基因及蛋白表达进行分析。结果:我们发现KIF5A和KLC1的基因表达随着Braak缠结期(0-II vs III-IV和V-VI)的增加而增加,但在蛋白水平上没有显著变化。我们没有发现KLC1 snp对KIF5A或KLC1表达的影响,但先前与多发性硬化症易感性相关的KIF5A snp与AD皮质中KIF5A mRNA表达减少有关。结论:需要进一步的体外和体内研究来了解AD中KIF5A和KLC-1基因表达上调的原因,以及对发病机制的任何潜在下游影响,包括KIF5A基因位点内遗传多态性的任何贡献。
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KIF5A and KLC1 expression in Alzheimer’s disease: relationship and genetic influences
Background: Early disturbances in axonal transport, before the onset of gross neuropathology, occur in a spectrum of neurodegenerative diseases including Alzheimer’s disease. Kinesin superfamily motor proteins (KIFs) are responsible for anterograde protein transport within the axon of various cellular cargoes, including synaptic and structural proteins. Dysregulated KIF expression has been associated with AD pathology and genetic polymorphisms within kinesin-light chain-1 (KLC1) have been linked to AD susceptibility. We examined the expression of KLC1 in AD, in relation to that of the KLC1 motor complex (KIF5A) and to susceptibility genotypes. Methods: We analysed KLC1 and KIF5A gene and protein expression in midfrontal cortex from 47 AD and 39 control brains. Results: We found that gene expression of both KIF5A and KLC1 increased with Braak tangle stage (0-II vs III-IV and V-VI) but was not associated with significant change at the protein level. We found no effect of KLC1 SNPs on KIF5A or KLC1 expression but KIF5A SNPs that had previously been linked to susceptibility in multiple sclerosis were associated with reduced KIF5A mRNA expression in AD cortex. Conclusions: Future in vitro and in vivo studies are required to understand the cause of upregulated KIF5A and KLC-1 gene expression in AD and any potential downstream consequences on pathogenesis, including any contribution of genetic polymorphisms within the KIF5A gene locus.
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