Table_6_The Host Response to Viral Infections Reveals Common and Virus-Specific Signatures in the Peripheral Blood.csv (13.58 kB)
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Table_6_The Host Response to Viral Infections Reveals Common and Virus-Specific Signatures in the Peripheral Blood.csv

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posted on 27.10.2021, 04:38 by Ephraim L. Tsalik, Cassandra Fiorino, Ammara Aqeel, Yiling Liu, Ricardo Henao, Emily R. Ko, Thomas W. Burke, Megan E. Reller, Champica K. Bodinayake, Ajith Nagahawatte, Wasantha K. Arachchi, Vasantha Devasiri, Ruvini Kurukulasooriya, Micah T. McClain, Christopher W. Woods, Geoffrey S. Ginsburg, L. Gayani Tillekeratne, Klaus Schughart

Viruses cause a wide spectrum of clinical disease, the majority being acute respiratory infections (ARI). In most cases, ARI symptoms are similar for different viruses although severity can be variable. The objective of this study was to understand the shared and unique elements of the host transcriptional response to different viral pathogens. We identified 162 subjects in the US and Sri Lanka with infections due to influenza, enterovirus/rhinovirus, human metapneumovirus, dengue virus, cytomegalovirus, Epstein Barr Virus, or adenovirus. Our dataset allowed us to identify common pathways at the molecular level as well as virus-specific differences in the host immune response. Conserved elements of the host response to these viral infections highlighted the importance of interferon pathway activation. However, the magnitude of the responses varied between pathogens. We also identified virus-specific responses to influenza, enterovirus/rhinovirus, and dengue infections. Influenza-specific differentially expressed genes (DEG) revealed up-regulation of pathways related to viral defense and down-regulation of pathways related to T cell and neutrophil responses. Functional analysis of entero/rhinovirus-specific DEGs revealed up-regulation of pathways for neutrophil activation, negative regulation of immune response, and p38MAPK cascade and down-regulation of virus defenses and complement activation. Functional analysis of dengue-specific up-regulated DEGs showed enrichment of pathways for DNA replication and cell division whereas down-regulated DEGs were mainly associated with erythrocyte and myeloid cell homeostasis, reactive oxygen and peroxide metabolic processes. In conclusion, our study will contribute to a better understanding of molecular mechanisms to viral infections in humans and the identification of biomarkers to distinguish different types of viral infections.