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Mitochondrial dysfunction, lipids metabolism, and amino acid biosynthesis are key pathways for COVID-19 recovery

Alba Sánchez, Graciano García‐Pardo, Fréderic Gómez-Bertomeu, Miguel López-Dupla, Elisabet Foguet‐Romero, María J. Buzón, Benito Almirante, Montserrat Olona, Sonia Fernández‐Veledo, Francesc Vidal, Sílvia Chafino, Anna Rull, Joaquim Peraire

2023iScience16 citationsDOIOpen Access PDF

Abstract

The metabolic alterations caused by SARS-CoV-2 infection reflect disease progression. To analyze molecules involved in these metabolic changes, a multiomics study was performed using plasma from 103 patients with different degrees of COVID-19 severity during the evolution of the infection. With the increased severity of COVID-19, changes in circulating proteomic, metabolomic, and lipidomic profiles increased. Notably, the group of severe and critical patients with high HRG and ChoE (20:3) and low alpha-ketoglutaric acid levels had a high chance of unfavorable disease evolution (AUC = 0.925). Consequently, patients with the worst prognosis presented alterations in the TCA cycle (mitochondrial dysfunction), lipid metabolism, amino acid biosynthesis, and coagulation. Our findings increase knowledge regarding how SARS-CoV-2 infection affects different metabolic pathways and help in understanding the future consequences of COVID-19 to identify potential therapeutic targets.

Topics & Concepts

MetabolomicsMetabolic pathwayBiosynthesisMetabolismCoronavirus disease 2019 (COVID-19)Lipid metabolismMitochondrionDiseaseSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Amino acidBiologyBiochemistryMedicinePhysiologyBioinformaticsInternal medicineInfectious disease (medical specialty)GeneCOVID-19 Clinical Research StudiesLong-Term Effects of COVID-19Metabolomics and Mass Spectrometry Studies