Author: Nagaraja, Sahana; Jain, Disha; Kesavardhana, Sannula
Title: Inflammasome regulation in driving COVIDâ€19 severity in humans and immune tolerance in bats Cord-id: 883h8xbd Document date: 2021_5_31
ID: 883h8xbd
Snippet: Coronaviruses (CoVs) are RNA viruses that cause human respiratory infections. Zoonotic transmission of the SARSâ€CoVâ€2 virus caused the recent COVIDâ€19 pandemic, which led to over 2 million deaths worldwide. Elevated inflammatory responses and cytotoxicity in the lungs are associated with COVIDâ€19 severity in SARSâ€CoVâ€2â€infected individuals. Bats, which host pathogenic CoVs, operate dampened inflammatory responses and show tolerance to these viruses with mild clinical symptoms. Deli
Document: Coronaviruses (CoVs) are RNA viruses that cause human respiratory infections. Zoonotic transmission of the SARSâ€CoVâ€2 virus caused the recent COVIDâ€19 pandemic, which led to over 2 million deaths worldwide. Elevated inflammatory responses and cytotoxicity in the lungs are associated with COVIDâ€19 severity in SARSâ€CoVâ€2â€infected individuals. Bats, which host pathogenic CoVs, operate dampened inflammatory responses and show tolerance to these viruses with mild clinical symptoms. Delineating the mechanisms governing these hostâ€specific inflammatory responses is essential to understand host–virus interactions determining the outcome of pathogenic CoV infections. Here, we describe the essential role of inflammasome activation in determining COVIDâ€19 severity in humans and innate immune tolerance in bats that host several pathogenic CoVs. We further discuss mechanisms leading to inflammasome activation in human SARSâ€CoVâ€2 infection and how bats are molecularly adapted to suppress these inflammasome responses. We also report an analysis of functionally important residues of inflammasome components that provide new clues of bat strategies to suppress inflammasome signaling and innate immune responses. As spillover of bat viruses may cause the emergence of new human disease outbreaks, the inflammasome regulation in bats and humans likely provides specific strategies to combat the pathogenic CoV infections.
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