Author: Corley, Michael J.; Pang, Alina P.S.; Dody, Kush; Mudd, Philip A.; Patterson, Bruce K.; Seethamraju, Harish; Bram, Yaron; Peluso, Michael J.; Torres, Leonel; Iyer, Nikita S.; Premeaux, Thomas A.; Yeung, Stephen T.; Chandar, Vasuretha; Borczuk, Alain; Schwartz, Robert E.; Henrich, Timothy J.; Deeks, Steven G.; Sacha, Jonah B.; Ndhlovu, Lishomwa C.
Title: Genomeâ€wide DNA methylation profiling of peripheral blood reveals an epigenetic signature associated with severe COVIDâ€19 Cord-id: s4feedff Document date: 2021_1_19
ID: s4feedff
Snippet: The global pandemic caused by the severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) is a highly pathogenic RNA virus causing coronavirus disease 2019 (COVIDâ€19) in humans. Although most patients with COVIDâ€19 have mild illness and may be asymptomatic, some will develop severe pneumonia, acute respiratory distress syndrome, multiâ€organ failure, and death. RNA viruses such as SARSâ€CoVâ€2 are capable of hijacking the epigenetic landscape of host immune cells to evade antivir
Document: The global pandemic caused by the severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) is a highly pathogenic RNA virus causing coronavirus disease 2019 (COVIDâ€19) in humans. Although most patients with COVIDâ€19 have mild illness and may be asymptomatic, some will develop severe pneumonia, acute respiratory distress syndrome, multiâ€organ failure, and death. RNA viruses such as SARSâ€CoVâ€2 are capable of hijacking the epigenetic landscape of host immune cells to evade antiviral defense. Yet, there remain considerable gaps in our understanding of immune cell epigenetic changes associated with severe SARSâ€CoVâ€2 infection pathology. Here, we examined genomeâ€wide DNA methylation (DNAm) profiles of peripheral blood mononuclear cells from 9 terminallyâ€ill, critical COVIDâ€19 patients with confirmed SARSâ€CoVâ€2 plasma viremia compared with uninfected, hospitalized influenza, untreated primary HIV infection, and mild/moderate COVIDâ€19 HIV coinfected individuals. Cellâ€type deconvolution analyses confirmed lymphopenia in severe COVIDâ€19 and revealed a high percentage of estimated neutrophils suggesting perturbations to DNAm associated with granulopoiesis. We observed a distinct DNAm signature of severe COVIDâ€19 characterized by hypermethylation of IFNâ€related genes and hypomethylation of inflammatory genes, reinforcing observations in infection models and singleâ€cell transcriptional studies of severe COVIDâ€19. Epigenetic clock analyses revealed severe COVIDâ€19 was associated with an increased DNAm age and elevated mortality risk according to GrimAge, further validating the epigenetic clock as a predictor of disease and mortality risk. Our epigenetic results reveal a discovery DNAm signature of severe COVIDâ€19 in blood potentially useful for corroborating clinical assessments, informing pathogenic mechanisms, and revealing new therapeutic targets against SARSâ€CoVâ€2.
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