PLoS Computational Biology (Feb 2022)

Mapping the gene network landscape of Alzheimer's disease through integrating genomics and transcriptomics.

  • Sara Brin Rosenthal,
  • Hao Wang,
  • Da Shi,
  • Cin Liu,
  • Ruben Abagyan,
  • Linda K McEvoy,
  • Chi-Hua Chen

DOI
https://doi.org/10.1371/journal.pcbi.1009903
Journal volume & issue
Vol. 18, no. 2
p. e1009903

Abstract

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Integration of multi-omics data with molecular interaction networks enables elucidation of the pathophysiology of Alzheimer's disease (AD). Using the latest genome-wide association studies (GWAS) including proxy cases and the STRING interactome, we identified an AD network of 142 risk genes and 646 network-proximal genes, many of which were linked to synaptic functions annotated by mouse knockout data. The proximal genes were confirmed to be enriched in a replication GWAS of autopsy-documented cases. By integrating the AD gene network with transcriptomic data of AD and healthy temporal cortices, we identified 17 gene clusters of pathways, such as up-regulated complement activation and lipid metabolism, down-regulated cholinergic activity, and dysregulated RNA metabolism and proteostasis. The relationships among these pathways were further organized by a hierarchy of the AD network pinpointing major parent nodes in graph structure including endocytosis and immune reaction. Control analyses were performed using transcriptomics from cerebellum and a brain-specific interactome. Further integration with cell-specific RNA sequencing data demonstrated genes in our clusters of immunoregulation and complement activation were highly expressed in microglia.