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Understanding the Molecular Drivers of Disease Heterogeneity in Crohn’s Disease Using Multi-omic Data Integration and Network Analysis

Padhmanand Sudhakar, Bram Verstockt, Jonathan Cremer, Sare Verstockt, João Sabino, Marc Ferrante, Séverine Vermeire

2020Inflammatory Bowel Diseases46 citationsDOIOpen Access PDF

Abstract

Crohn's disease (CD), a form of inflammatory bowel disease (IBD), is characterized by heterogeneity along multiple clinical axes, which in turn impacts disease progression and treatment modalities. Using advanced data integration approaches and systems biology tools, we studied the contribution of CD susceptibility variants and gene expression in distinct peripheral immune cell subsets (CD14+ monocytes and CD4+ T cells) to relevant clinical traits. Our analyses revealed that most clinical traits capturing CD heterogeneity could be associated with CD14+ and CD4+ gene expression rather than disease susceptibility variants. By disentangling the sources of variation, we identified molecular features that could potentially be driving the heterogeneity of various clinical traits of CD patients. Further downstream analyses identified contextual hub proteins such as genes encoding barrier functions, antimicrobial peptides, chemokines, and their receptors, which are either targeted by drugs used in CD or other inflammatory diseases or are relevant to the biological functions implicated in disease pathology. These hubs could be used as cell type-specific targets to treat specific subtypes of CD patients in a more individualized approach based on the underlying biology driving their disease subtypes. Our study highlights the importance of data integration and systems approaches to investigate complex and heterogeneous diseases such as IBD.

Topics & Concepts

DiseaseBiologyCrohn's diseaseComputational biologyInflammatory bowel diseasePhenotypeSystems biologyCD14Genetic heterogeneityPrecision medicineImmunologyGeneImmune systemBioinformaticsGeneticsMedicinePathologyInflammatory Bowel DiseaseIL-33, ST2, and ILC PathwaysGalectins and Cancer Biology
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