全基因组关联研究揭示了大脑生化表型与阿尔茨海默病相关蛋白的不同遗传结构。

Genome-wide association study of brain biochemical phenotypes reveals distinct genetic architecture of Alzheimer's disease related proteins.

机构信息

Department of Neuroscience, Mayo Clinic, 4500 San Pablo Road, Jacksonville, FL, 32224, USA.

Department of Quantitative Health Sciences, Mayo Clinic, Jacksonville, FL, USA.

出版信息

Mol Neurodegener. 2023 Jan 7;18(1):2. doi: 10.1186/s13024-022-00592-2.

DOI:10.1186/s13024-022-00592-2

PMID:36609403

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9825010/

Abstract

BACKGROUND

Alzheimer's disease (AD) is neuropathologically characterized by amyloid-beta (Aβ) plaques and neurofibrillary tangles. The main protein components of these hallmarks include Aβ40, Aβ42, tau, phosphor-tau, and APOE. We hypothesize that genetic variants influence the levels and solubility of these AD-related proteins in the brain; identifying these may provide key insights into disease pathogenesis.

METHODS

Genome-wide genotypes were collected from 441 AD cases, imputed to the haplotype reference consortium (HRC) panel, and filtered for quality and frequency. Temporal cortex levels of five AD-related proteins from three fractions, buffer-soluble (TBS), detergent-soluble (Triton-X = TX), and insoluble (Formic acid = FA), were available for these same individuals. Variants were tested for association with each quantitative biochemical measure using linear regression, and GSA-SNP2 was used to identify enriched Gene Ontology (GO) terms. Implicated variants and genes were further assessed for association with other relevant variables.

RESULTS

We identified genome-wide significant associations at seven novel loci and the APOE locus. Genes and variants at these loci also associate with multiple AD-related measures, regulate gene expression, have cell-type specific enrichment, and roles in brain health and other neuropsychiatric diseases. Pathway analysis identified significant enrichment of shared and distinct biological pathways.

CONCLUSIONS

Although all biochemical measures tested reflect proteins core to AD pathology, our results strongly suggest that each have unique genetic architecture and biological pathways that influence their specific biochemical states in the brain. Our novel approach of deep brain biochemical endophenotype GWAS has implications for pathophysiology of proteostasis in AD that can guide therapeutic discovery efforts focused on these proteins.

摘要

背景

阿尔茨海默病（AD）在神经病理学上的特征是淀粉样β（Aβ）斑块和神经原纤维缠结。这些标志物的主要蛋白质成分包括 Aβ40、Aβ42、tau、磷酸化 tau 和 APOE。我们假设遗传变异会影响大脑中这些 AD 相关蛋白的水平和可溶性；确定这些因素可能为疾病发病机制提供关键见解。

方法

从 441 例 AD 病例中收集全基因组基因型，导入单体型参考联盟（HRC）面板进行推断，并进行质量和频率过滤。这些个体的三个部分（缓冲液可溶性（TBS）、去污剂可溶性（Triton-X=TX）和不溶性（甲酸=FA））的 AD 相关蛋白水平可用于检测。使用线性回归检测变体与每个定量生化测量的关联，使用 GSA-SNP2 识别富集的基因本体论（GO）术语。进一步评估受影响的变体和基因与其他相关变量的关联。

结果

我们在七个新的基因座和 APOE 基因座确定了全基因组显著关联。这些基因座的基因和变体也与多种 AD 相关测量指标相关，调节基因表达，具有细胞类型特异性富集，以及在大脑健康和其他神经精神疾病中的作用。途径分析确定了共享和独特的生物学途径的显著富集。

结论

尽管所有测试的生化指标都反映了 AD 病理学的核心蛋白，但我们的结果强烈表明，每种指标都具有独特的遗传结构和生物学途径，影响它们在大脑中的特定生化状态。我们使用深度大脑生化内表型 GWAS 的新方法对 AD 中的蛋白质稳定性病理生理学具有影响，可以指导针对这些蛋白质的治疗发现工作。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fb8/9825010/26991f4e0c03/13024_2022_592_Fig1_HTML.jpg

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全基因组关联研究揭示了大脑生化表型与阿尔茨海默病相关蛋白的不同遗传结构。

Genome-wide association study of brain biochemical phenotypes reveals distinct genetic architecture of Alzheimer's disease related proteins.

机构信息

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