在阿尔茨海默病最早阶段的 App(NL-G-F) 基因敲入小鼠模型中,对突触适应淀粉样病理学的长读数转录组鉴定

Umran Yaman, Gareth Banks, Emil K Gustavsson, Paige Mumford, Naciye Magusali, Orjona Stella Taso, Hannah Macpherson, Susana Carmona, Malgorzata Murray, Rasneer Sonia Bains, Hamish Forrest, Michelle Stewart, Connor Scott, Tatiana V Lipina, Zhao Cheng, Anna L Tierney, Richard D Unwin, Juan A Botia, Carlo Sala Frigerio, Sara E Wells, John Hardy, Lilach Soreq, Frances K Wiseman, Dervis A Salih
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摘要

全基因组关联研究(GWAS)发现了阿尔茨海默病(AD)风险基因的转录网络,这些基因主要在小胶质细胞中表达,并与 AD 病理相关。然而,传统的短线程测序仪限制了我们全面描述 GWAS 变异如何影响基因表达调控或替代剪接以应对病理变化的能力,特别是导致剪接检测不准确。为了填补这一空白,我们在 App(NL-G-F) 基因敲入小鼠模型中利用长线程 RNA 测序(RNA-seq)来鉴定剪接和新型转录本异构体在淀粉样β作用下的变化。我们的研究表明,长读程 RNA-seq 能够再现小胶质细胞表达的风险基因(如 Trem2)在 9 个月大时对淀粉样蛋白-β 的预期诱导,这种诱导与 App(NL-G-F) 基因敲入小鼠空间短时记忆的衰老依赖性缺陷有关。我们的研究结果不仅在与AD相关的基因中发现了新的剪接事件和转录本异构体丰度,还揭示了在淀粉样蛋白斑块作用下通过剪接对基因表达的复杂调控。令人惊讶的是,在小胶质细胞、神经元和少突胶质细胞中表达的、以前未被确定为AD风险基因的基因也出现了对淀粉样蛋白的替代剪接调控,其中包括诸如Syngr1等调节突触生理学的基因。我们在小鼠体内发现了Ctsa、Clta、Dennd2a、Irf9和Smad4等基因在淀粉样蛋白作用下的替代剪接,这些基因的直向同源物在人类AD大脑中也显示出转录本使用的变化。我们的数据提出了一个模型,即在诱导与小胶质细胞增殖和激活相关的阿德氏病风险基因表达的同时,小胶质细胞和神经元表达的另一类基因也发生了替代剪接。我们的研究为了解淀粉样蛋白病理相关基因的调控机制和影响提供了新的视角,这最终可能有助于更好地诊断疾病和跟踪疾病进展。此外,我们的研究结果还为治疗注意力缺失症找到了新的治疗途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-read transcriptomic identification of synaptic adaptation to amyloid pathology in the App(NL-G-F) knock-in mouse model of the earliest phase of Alzheimer's disease
Genome-wide association studies (GWAS) have identified a transcriptional network of Alzheimer's disease (AD) risk genes that are primarily expressed in microglia and are associated with AD pathology. However, traditional short-read sequencers have limited our ability to fully characterize how GWAS variants exert their effects on gene expression regulation or alternative splicing in response to the pathology, particularly resulting in inaccurate detection of splicing. To address this gap, we utilized long-read RNA-sequencing (RNA-seq) in the App(NL-G-F) knock-in mouse model to identify changes in splicing and novel transcript isoforms in response to amyloid-β. We show that long-read RNA-seq can recapitulate the expected induction of microglial expressed risk genes such as Trem2 in response to amyloid-β at 9 months of age associated with ageing-dependent deficiencies in spatial short-term memory in the App(NL-G-F) knock-in mice. Our results not only identified novel splicing events and transcript isoform abundance in genes associated with AD, but also revealed the complex regulation of gene expression through splicing in response to amyloid plaques. Surprisingly, the regulation of alternative splicing in response to amyloid was seen in genes previously not identified as AD risk genes, expressed in microglia, neurons and oligodendrocytes, and included genes such as Syngr1 that modulate synaptic physiology. We saw alternative splicing in genes such as Ctsa, Clta, Dennd2a, Irf9 and Smad4 in mice in response to amyloid, and the orthologues of these genes also showed transcript usage changes in human AD brains. Our data suggests a model whereby induction of AD risk gene expression associated with microglial proliferation and activation is concomitant with alternative splicing in a different class of genes expressed by microglia and neurons, which act to adapt or preserve synaptic activity in response to amyloid-β during early stages of the disease. Our study provides new insights into the mechanisms and effects of the regulation of genes associated with amyloid pathology, which may ultimately enable better disease diagnosis, and improved tracking of disease progression. Additionally, our findings identify new therapeutic avenues for treatment of AD.
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