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Molecular models of multiple sclerosis severity identify heterogeneity of pathogenic mechanisms

Péter Kósa, Christopher Barbour, Mihael Varosanec, Alison Wichman, Mary Sandford, Mark Greenwood, Bibiana Bielekova

2022Nature Communications30 citationsDOIOpen Access PDF

Abstract

While autopsy studies identify many abnormalities in the central nervous system (CNS) of subjects dying with neurological diseases, without their quantification in living subjects across the lifespan, pathogenic processes cannot be differentiated from epiphenomena. Using machine learning (ML), we searched for likely pathogenic mechanisms of multiple sclerosis (MS). We aggregated cerebrospinal fluid (CSF) biomarkers from 1305 proteins, measured blindly in the training dataset of untreated MS patients (N = 129), into models that predict past and future speed of disability accumulation across all MS phenotypes. Healthy volunteers (N = 24) data differentiated natural aging and sex effects from MS-related mechanisms. Resulting models, validated (Rho 0.40-0.51, p < 0.0001) in an independent longitudinal cohort (N = 98), uncovered intra-individual molecular heterogeneity. While candidate pathogenic processes must be validated in successful clinical trials, measuring them in living people will enable screening drugs for desired pharmacodynamic effects. This will facilitate drug development making, it hopefully more efficient and successful.

Topics & Concepts

Multiple sclerosisMedicineCohortClinical trialPharmacodynamicsBioinformaticsBiologyInternal medicineImmunologyPharmacokineticsMultiple Sclerosis Research StudiesCytokine Signaling Pathways and InteractionsBioinformatics and Genomic Networks
Molecular models of multiple sclerosis severity identify heterogeneity of pathogenic mechanisms | Litcius