Litcius/Paper detail

Metabolomics identifies shared lipid pathways in independent amyotrophic lateral sclerosis cohorts

Stephen A. Goutman, Kai Guo, Masha G. Savelieff, Adam Patterson, Stacey A. Sakowski, Hani Habra, Alla Karnovsky, Junguk Hur, Eva L. Feldman

2022Brain50 citationsDOIOpen Access PDF

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease lacking effective treatments. This is due, in part, to a complex and incompletely understood pathophysiology. To shed light, we conducted untargeted metabolomics on plasma from two independent cross-sectional ALS cohorts versus control participants to identify recurrent dysregulated metabolic pathways. Untargeted metabolomics was performed on plasma from two ALS cohorts (cohort 1, n = 125; cohort 2, n = 225) and healthy controls (cohort 1, n = 71; cohort 2, n = 104). Individual differential metabolites in ALS cases versus controls were assessed by Wilcoxon, adjusted logistic regression and partial least squares-discriminant analysis, while group lasso explored sub-pathway level differences. Adjustment parameters included age, sex and body mass index. Metabolomics pathway enrichment analysis was performed on metabolites selected using the above methods. Additionally, we conducted a sex sensitivity analysis due to sex imbalance in the cohort 2 control arm. Finally, a data-driven approach, differential network enrichment analysis (DNEA), was performed on a combined dataset to further identify important ALS metabolic pathways. Cohort 2 ALS participants were slightly older than the controls (64.0 versus 62.0 years, P = 0.009). Cohort 2 controls were over-represented in females (68%, P < 0.001). The most concordant cohort 1 and 2 pathways centred heavily on lipid sub-pathways, including complex and signalling lipid species and metabolic intermediates. There were differences in sub-pathways that were enriched in ALS females versus males, including in lipid sub-pathways. Finally, DNEA of the merged metabolite dataset of both ALS and control cohorts identified nine significant subnetworks; three centred on lipids and two encompassed a range of sub-pathways. In our analysis, we saw consistent and important shared metabolic sub-pathways in both ALS cohorts, particularly in lipids, further supporting their importance as ALS pathomechanisms and therapeutics targets.

Topics & Concepts

CohortAmyotrophic lateral sclerosisMetabolomicsInternal medicineCohort studyMedicineLogistic regressionOncologyDiseaseEndocrinologyBiologyBioinformaticsAmyotrophic Lateral Sclerosis ResearchBiochemical Acid Research StudiesParkinson's Disease Mechanisms and Treatments
Metabolomics identifies shared lipid pathways in independent amyotrophic lateral sclerosis cohorts | Litcius