From Correlation to Causation: Cell-Type-Specific Gene Regulatory Networks in Alzheimer’s Disease

  1. Danni Liu
  2. Zhongli Jiang
  3. Hyunjin Kim
  4. Anke M. Tukker
  5. Ashish Dalvi
  6. Junkai Xie
  7. Yan Li
  8. Chongli Yuan
  9. Aaron B. Bowman
  10. Dabao Zhang
  11. Min Zhang
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Abstract

INTRODUCTION

Alzheimer’s disease (AD) involves complex regulatory disruptions across multiple brain cell types, yet a comprehensive understanding of the intracellular causal mechanisms remains unclear.

METHODS

We presented an integrative analysis framework using single-nucleus transcriptomic with matched subject-level genotype data from 272 human AD in the Religious Orders Study and the Rush Memory and Aging Project (ROSMAP) study, and constructed causality-based, cell-type-specific gene regulatory networks (GRNs).

RESULTS

Our method identifies regulatory genes from both transcription factors (TFs) and non-TFs, thereby capturing a complete and accurate causal regulatory map across different brain cell types. This work revealed both established and novel regulations, pathways, and cell-type-unique hub genes in AD. Beyond constructing transcriptome-wide GRNs, we quantitatively assessed hub genes and distinguished those with regulatory or responsive roles.

DISCUSSION

Our study provides a comprehensive mapping of cell-type-specific causal GRNs in AD, providing a powerful resource for dynamic pathway exploration, hypothesis generation, and functional interpretation.

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  1. Version published to 10.1101/2025.09.25.674923 on bioRxiv