Litcius/Paper detail

PathIntegrate: Multivariate modelling approaches for pathway-based multi-omics data integration

Cecilia Wieder, Juliette Cooke, Clément Frainay, Nathalie Poupin, Russell P. Bowler, Fabien Jourdan, Katerina Kechris, Rachel Lai, Timothy M. D. Ebbels

2024PLoS Computational Biology31 citationsDOIOpen Access PDF

Abstract

As terabytes of multi-omics data are being generated, there is an ever-increasing need for methods facilitating the integration and interpretation of such data. Current multi-omics integration methods typically output lists, clusters, or subnetworks of molecules related to an outcome. Even with expert domain knowledge, discerning the biological processes involved is a time-consuming activity. Here we propose PathIntegrate, a method for integrating multi-omics datasets based on pathways, designed to exploit knowledge of biological systems and thus provide interpretable models for such studies. PathIntegrate employs single-sample pathway analysis to transform multi-omics datasets from the molecular to the pathway-level, and applies a predictive single-view or multi-view model to integrate the data. Model outputs include multi-omics pathways ranked by their contribution to the outcome prediction, the contribution of each omics layer, and the importance of each molecule in a pathway. Using semi-synthetic data we demonstrate the benefit of grouping molecules into pathways to detect signals in low signal-to-noise scenarios, as well as the ability of PathIntegrate to precisely identify important pathways at low effect sizes. Finally, using COPD and COVID-19 data we showcase how PathIntegrate enables convenient integration and interpretation of complex high-dimensional multi-omics datasets. PathIntegrate is available as an open-source Python package.

Topics & Concepts

Computer scienceOmicsPython (programming language)Data integrationExploitData miningBiological dataComputational biologyData scienceBioinformaticsBiologyComputer securityOperating systemBioinformatics and Genomic NetworksGene expression and cancer classificationMetabolomics and Mass Spectrometry Studies