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A blood transcriptome-based analysis of disease progression, immune regulation, and symptoms in coronavirus-infected patients

Anguraj Sadanandam, Tobias Bopp, Santosh Dixit, David J. H. F. Knapp, Chitra Priya Emperumal, Paschalis Vergidis, Krishnaraj Rajalingam, Alan Melcher, Nagarajan Kannan

2020Cell Death Discovery44 citationsDOIOpen Access PDF

Abstract

COVID-19 patients show heterogeneity in clinical presentation and outcomes that makes pandemic control and strategy difficult; optimizing management requires a systems biology approach of understanding the disease. Here we sought to potentially understand and infer complex disease progression, immune regulation, and symptoms in patients infected with coronaviruses (35 SARS-CoV and 3 SARS-CoV-2 patients and 57 samples) at two different disease progression stages. Further, we compared coronavirus data with healthy individuals (n = 16) and patients with other infections (n = 144; all publicly available data). We applied inferential statistics (the COVID-engine platform) to RNA profiles (from limited number of samples) derived from peripheral blood mononuclear cells (PBMCs). Compared to healthy individuals, a subset of integrated blood-based gene profiles (signatures) distinguished acute-like (mimicking coronavirus-infected patients with prolonged hospitalization) from recovering-like patients. These signatures also hierarchically represented multiple (at the system level) parameters associated with PBMC including dysregulated cytokines, genes, pathways, networks of pathways/concepts, immune status, and cell types. Proof-of-principle observations included PBMC-based increases in cytokine storm-associated IL6, enhanced innate immunity (macrophages and neutrophils), and lower adaptive T and B cell immunity in patients with acute-like disease compared to those with recovery-like disease. Patients in the recovery-like stage showed significantly enhanced TNF, IFN-γ, anti-viral, HLA-DQA1, and HLA-F gene expression and cytolytic activity, and reduced pro-viral gene expression compared to those in the acute-like stage in PBMC. Besides, our analysis revealed overlapping genes associated with potential comorbidities (associated diabetes) and disease-like conditions (associated with thromboembolism, pneumonia, lung disease, and septicemia). Overall, our COVID-engine inferential statistics platform and study involving PBMC-based RNA profiling may help understand complex and variable system-wide responses displayed by coronavirus-infected patients with further validation.

Topics & Concepts

Cytokine stormImmune systemPeripheral blood mononuclear cellImmunologyDiseaseImmunityCoronavirusTranscriptomeAcquired immune systemInnate immune systemHuman leukocyte antigenBiologyMedicineGene expressionGeneAntigenCoronavirus disease 2019 (COVID-19)Internal medicineInfectious disease (medical specialty)GeneticsIn vitroCOVID-19 Clinical Research StudiesSARS-CoV-2 and COVID-19 ResearchSingle-cell and spatial transcriptomics