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Immune system cells from COVID-19 patients display compromised mitochondrial-nuclear expression co-regulation and rewiring toward glycolysis

Hadar Medini, Amit Zirman, Dan Mishmar

2021iScience54 citationsDOIOpen Access PDF

Abstract

Mitochondria are pivotal for bioenergetics, as well as in cellular response to viral infections. Nevertheless, their role in COVID-19 was largely overlooked. Here, we analyzed available bulk RNA-seq datasets from COVID-19 patients and corresponding healthy controls (three blood datasets, N = 48 healthy, 119 patients; two respiratory tract datasets, N = 157 healthy, 524 patients). We found significantly reduced mtDNA gene expression in blood, but not in respiratory tract samples from patients. Next, analysis of eight single-cells RNA-seq datasets from peripheral blood mononuclear cells, nasopharyngeal samples, and Bronchoalveolar lavage fluid (N = 1,192,243 cells), revealed significantly reduced mtDNA gene expression especially in immune system cells from patients. This is associated with elevated expression of nuclear DNA-encoded OXPHOS subunits, suggesting compromised mitochondrial-nuclear co-regulation. This, together with elevated expression of ROS-response genes and glycolysis enzymes in patients, suggest rewiring toward glycolysis, thus generating beneficial conditions for SARS-CoV-2 replication. Our findings underline the centrality of mitochondrial dysfunction in COVID-19.

Topics & Concepts

Mitochondrial DNAImmune systemPeripheral blood mononuclear cellBiologyGlycolysisMitochondrionGene expressionBioenergeticsRespiratory tractGeneNuclear DNAImmunologyVirologyCell biologyMolecular biologyRespiratory systemGeneticsEnzymeBiochemistryIn vitroAnatomyCOVID-19 Clinical Research StudiesMitochondrial Function and PathologyLong-Term Effects of COVID-19