Small RNA Sequencing in the Tg4-42 Mouse Model Suggests the Involvement of snoRNAs in the Etiology of Alzheimer's Disease.

Journal of Alzheimer's disease : JAD Pub Date : 2022-05-02 DOI:10.3233/JAD-220110

C. T. Lio, T. Kacprowski, Maik Klaedtke, L. Jensen, Y. Bouter, T. Bayer, A. Kuss

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引用次数: 2

Abstract

BACKGROUND The Tg4-42 mouse model for sporadic Alzheimer's disease (AD) has unique features, as the neuronal expression of wild type N-truncated Aβ4-42 induces an AD-typical neurological phenotype in the absence of plaques. It is one of the few models developing neuron death in the CA1 region of the hippocampus. As such, it could serve as a powerful tool for preclinical drug testing and identification of the underlying molecular pathways that drive the pathology of AD. OBJECTIVE The aim of this study was to use a differential co-expression analysis approach for analyzing a small RNA sequencing dataset from a well-established murine model in order to identify potentially new players in the etiology of AD. METHODS To investigate small nucleolar RNAs in the hippocampus of Tg4-42 mice, we used RNA-Seq data from this particular tissue and, instead of analyzing the data at single gene level, employed differential co-expression analysis, which takes the comparison to gene pair level and thus affords a new angle to the interpretation of these data. RESULTS We identified two clusters of differentially correlated small RNAs, including Snord55, Snord57, Snord49a, Snord12, Snord38a, Snord99, Snord87, Mir1981, Mir106b, Mir30d, Mir598, and Mir99b. Interestingly, some of them have been reported to be functionally relevant in AD pathogenesis, as AD biomarkers, regulating tau phosphorylation, TGF-β receptor function or Aβ metabolism. CONCLUSION The majority of snoRNAs for which our results suggest a potential role in the etiology of AD were so far not conspicuously implicated in the context of AD pathogenesis and could thus point towards interesting new avenues of research in this field.

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Tg4-42小鼠模型中的小RNA测序表明snoRNAs参与阿尔茨海默病的病因学。

散发性阿尔茨海默病(AD)的Tg4-42小鼠模型具有独特的特征，因为野生型n -截短的a - β4-42的神经元表达在没有斑块的情况下诱导AD典型的神经表型。它是少数在海马CA1区发生神经元死亡的模型之一。因此，它可以作为临床前药物测试和识别驱动AD病理的潜在分子途径的有力工具。目的:本研究的目的是使用差异共表达分析方法来分析来自已建立的小鼠模型的小RNA测序数据集，以确定AD病因学中的潜在新参与者。方法为了研究Tg4-42小鼠海马中的小核核rna，我们使用来自该特定组织的RNA-Seq数据，而不是在单基因水平上分析数据，采用差异共表达分析，将比较提高到基因对水平，从而为这些数据的解释提供了一个新的角度。结果我们鉴定了两组差异相关的小rna，包括Snord55、Snord57、Snord49a、Snord12、Snord38a、Snord99、Snord87、Mir1981、Mir106b、Mir30d、Mir598和Mir99b。有趣的是，其中一些已被报道在AD发病机制中具有功能相关性，作为AD生物标志物，调节tau磷酸化、TGF-β受体功能或Aβ代谢。结论:我们的研究结果表明，大多数snorna在AD的病因学中具有潜在作用，但到目前为止，它们在AD的发病机制中并没有明显的关联，因此可能为该领域的研究指明了有趣的新途径。

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Journal of Alzheimer's disease : JAD

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