Abstract Motivation Accurate identification of pain-related genes remains challenging due to the complex nature of pain pathophysiology and the subjective nature of pain reporting in humans. Here, we use machine learning to identify possible ‘pain genes’. Labelling was based on a gold-standard list with validated involvement across pain conditions, and was trained on a selection of -omics, protein–protein interaction network features, and biological function readouts for each gene. Results The top-performing model was selected to predict a ‘pain score’ per gene. The top-ranked genes were then validated against pain-related human SNPs. Functional analysis revealed JAK2/STAT3 signal, ErbB, and Rap1 signalling pathways as promising targets for further exploration, while network topological features contribute significantly to the identification of ‘pain’ genes. As such, a network based on top-ranked genes was constructed to reveal previously uncharacterized pain-related genes. Together, these novel insights into pain pathogenesis can indicate promising directions for future experimental research. Availability and implementation These analyses can be further explored using the linked open-source database at https://livedataoxford.shinyapps.io/drg-directory/, which is accompanied by a freely accessible code template and user guide for wider adoption across disciplines.
Journal article
Bioinformatics Advances
Oxford University Press (OUP)
05/01/2024
4