Network dynamics-based subtyping of Alzheimer's disease with microglial genetic risk factors.

IF 7.9 1区 医学 Q1 CLINICAL NEUROLOGY Alzheimer's Research & Therapy Pub Date : 2024-10-16 DOI:10.1186/s13195-024-01583-9
Jae Hyuk Choi, Jonghoon Lee, Uiryong Kang, Hongjun Chang, Kwang-Hyun Cho
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Abstract

Background: The potential of microglia as a target for Alzheimer's disease (AD) treatment is promising, yet the clinical and pathological diversity within microglia, driven by genetic factors, poses a significant challenge. Subtyping AD is imperative to enable precise and effective treatment strategies. However, existing subtyping methods fail to comprehensively address the intricate complexities of AD pathogenesis, particularly concerning genetic risk factors. To address this gap, we have employed systems biology approaches for AD subtyping and identified potential therapeutic targets.

Methods: We constructed patient-specific microglial molecular regulatory network models by utilizing existing literature and single-cell RNA sequencing data. The combination of large-scale computer simulations and dynamic network analysis enabled us to subtype AD patients according to their distinct molecular regulatory mechanisms. For each identified subtype, we suggested optimal targets for effective AD treatment.

Results: To investigate heterogeneity in AD and identify potential therapeutic targets, we constructed a microglia molecular regulatory network model. The network model incorporated 20 known risk factors and crucial signaling pathways associated with microglial functionality, such as inflammation, anti-inflammation, phagocytosis, and autophagy. Probabilistic simulations with patient-specific genomic data and subsequent dynamics analysis revealed nine distinct AD subtypes characterized by core feedback mechanisms involving SPI1, CASS4, and MEF2C. Moreover, we identified PICALM, MEF2C, and LAT2 as common therapeutic targets among several subtypes. Furthermore, we clarified the reasons for the previous contradictory experimental results that suggested both the activation and inhibition of AKT or INPP5D could activate AD through dynamic analysis. This highlights the multifaceted nature of microglial network regulation.

Conclusions: These results offer a means to classify AD patients by their genetic risk factors, clarify inconsistent experimental findings, and advance the development of treatments tailored to individual genotypes for AD.

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基于网络动力学的阿尔茨海默病亚型与小胶质细胞遗传风险因素。
背景:小胶质细胞作为阿尔茨海默病(AD)治疗靶点的潜力令人充满希望,但在遗传因素的驱动下,小胶质细胞的临床和病理多样性构成了重大挑战。要制定精确有效的治疗策略,对阿尔茨海默病进行亚型鉴定势在必行。然而,现有的亚型划分方法未能全面解决 AD 发病机制错综复杂的问题,尤其是遗传风险因素。为了弥补这一不足,我们采用了系统生物学方法进行AD亚型鉴定,并确定了潜在的治疗靶点:方法:我们利用现有文献和单细胞 RNA 测序数据构建了患者特异性小胶质细胞分子调控网络模型。结合大规模计算机模拟和动态网络分析,我们根据不同的分子调控机制对AD患者进行了亚型分类。针对每种已确定的亚型,我们提出了有效治疗AD的最佳靶点:为了研究AD的异质性并确定潜在的治疗靶点,我们构建了一个小胶质细胞分子调控网络模型。该网络模型包含 20 个已知风险因素和与小胶质细胞功能相关的重要信号通路,如炎症、抗炎、吞噬和自噬。利用患者特异性基因组数据进行的概率模拟以及随后的动力学分析揭示了九种不同的AD亚型,这些亚型以涉及SPI1、CASS4和MEF2C的核心反馈机制为特征。此外,我们还发现 PICALM、MEF2C 和 LAT2 是几种亚型的共同治疗靶点。此外,我们还通过动态分析澄清了之前实验结果相互矛盾的原因,即 AKT 或 INPP5D 的激活和抑制均可激活 AD。这凸显了小胶质细胞网络调控的多面性:这些结果为根据遗传风险因素对AD患者进行分类提供了一种方法,澄清了不一致的实验结果,并推动了针对AD个体基因型的治疗方法的开发。
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来源期刊
Alzheimer's Research & Therapy
Alzheimer's Research & Therapy 医学-神经病学
CiteScore
13.10
自引率
3.30%
发文量
172
审稿时长
>12 weeks
期刊介绍: Alzheimer's Research & Therapy is an international peer-reviewed journal that focuses on translational research into Alzheimer's disease and other neurodegenerative diseases. It publishes open-access basic research, clinical trials, drug discovery and development studies, and epidemiologic studies. The journal also includes reviews, viewpoints, commentaries, debates, and reports. All articles published in Alzheimer's Research & Therapy are included in several reputable databases such as CAS, Current contents, DOAJ, Embase, Journal Citation Reports/Science Edition, MEDLINE, PubMed, PubMed Central, Science Citation Index Expanded (Web of Science) and Scopus.
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