A single-cell atlas of the peripheral immune response in patients with severe COVID-19

There is an urgent need to better understand the pathophysiology of Coronavirus disease 2019 (COVID-19), the global pandemic caused by SARS-CoV-2, which has infected more than three million people worldwide(1). Approximately 20% of patients with COVID-19 develop severe disease and 5% of patients require intensive care(2). Severe disease has been associated with changes in peripheral immune activity, including increased levels of pro-inflammatory cytokines(3,4) that may be produced by a subset of inflammatory monocytes(5,6), lymphopenia(7,8) and T cell exhaustion(9,10). To elucidate pathways in peripheral immune cells that might lead to immunopathology or protective immunity in severe COVID-19, we applied single-cell RNA sequencing (scRNA-seq) to profile peripheral blood mononuclear cells (PBMCs) from seven patients hospitalized for COVID-19, four of whom had acute respiratory distress syndrome, and six healthy controls. We identify reconfiguration of peripheral immune cell phenotype in COVID-19, including a heterogeneous interferon-stimulated gene signature, HLA class II downregulation and a developing neutrophil population that appears closely related to plasmablasts appearing in patients with acute respiratory failure requiring mechanical ventilation. Importantly, we found that peripheral monocytes and lymphocytes do not express substantial amounts of pro-inflammatory cytokines. Collectively, we provide a cell atlas of the peripheral immune response to severe COVID-19. Single-cell transcriptomic analysis identifies changes in peripheral immune cells in seven hospitalized patients with COVID-19, including HLA class II downregulation, a heterogeneous interferon-stimulated gene signature and low pro-inflammatory cytokine gene expression in monocytes and lymphocytes.