Shared Causal Paths underlying Alzheimer's dementia and Type 2 Diabetes

TL;DR

This study introduces advanced causal inference methods to identify shared genetic and molecular pathways between Alzheimer's disease and Type 2 Diabetes, revealing common causal genes and pathways through multi-omics data analysis.

Contribution

It develops novel statistical and algorithmic pipelines for multi-omics causal network inference, shifting from association to causal analysis of AD and T2DM.

Findings

Identified 13 shared causal genes between AD and T2DM

Discovered 16 shared causal pathways linking the diseases

Constructed multi-omics causal networks with hundreds of interconnected nodes

Abstract

Background: Although Alzheimer's disease (AD) is a central nervous system disease and type 2 diabetes mellitus (T2DM) is a metabolic disorder, an increasing number of genetic epidemiological studies show clear link between AD and T2DM. The current approach to uncovering the shared pathways between AD and T2DM involves association analysis; however, such analyses lack power to discover the mechanisms of the diseases. Methods: We develop novel statistical methods to shift the current paradigm of genetic analysis from association analysis to deep causal inference for uncovering the shared mechanisms between AD and T2DM, and develop pipelines to infer multilevel omics causal networks which lead to shifting the current paradigm of genetic analysis from genetic analysis alone to integrated causal genomic, epigenomic, transcriptional and phenotypic data analysis. To discover common causal paths from genetic variants to AD and T2DM, we also develop algorithms that can automatically search the causal paths from genetic variants to diseases and Results: The proposed methods and algorithms are applied to ROSMAP dataset with 432 individuals who simultaneously had genotype, RNA-seq, DNA methylation and some phenotypes. We construct multi-omics causal networks and identify 13 shared causal genes, 16 shared causal pathways between AD and T2DM, and 754 gene expression and 101 gene methylation nodes that were connected to both AD and T2DM in multi-omics causal networks. Conclusions: The results of application of the proposed pipelines for identifying causal paths to real data analysis of AD and T2DM provided strong evidence to support the link between AD and T2DM and unraveled causal mechanism to explain this link.