Author: Jodele, Sonata; Köhl, Jörg
Title: Tackling COVIDâ€19 infection through complementâ€targeted immunotherapy Cord-id: z61u3kqc Document date: 2020_7_9
ID: z61u3kqc
Snippet: The complement system is an ancient part of innate immunity sensing highly pathogenic coronaviruses by mannanâ€binding lectin (MBL) resulting in lectin pathway activation and subsequent generation of the anaphylatoxins (AT) C3a and C5a as important effector molecules. Complement deposition on endothelial cells and high blood C5a serum levels have been reported in COVIDâ€19 patients with severe illness, suggesting vigorous complement activation leading to systemic thrombotic microangiopathy (TM
Document: The complement system is an ancient part of innate immunity sensing highly pathogenic coronaviruses by mannanâ€binding lectin (MBL) resulting in lectin pathway activation and subsequent generation of the anaphylatoxins (AT) C3a and C5a as important effector molecules. Complement deposition on endothelial cells and high blood C5a serum levels have been reported in COVIDâ€19 patients with severe illness, suggesting vigorous complement activation leading to systemic thrombotic microangiopathy (TMA). Complement regulator gene variants prevalent in African Americans have been associated with a higher risk for severe TMA and multiâ€organ injury. Strikingly, SARSâ€CoVâ€2â€infected African Americans suffer from high mortality. These findings allow us to apply our knowledge from other complementâ€mediated diseases to COVIDâ€19 infection to better understand severe disease pathogenesis. Here we will discuss the multiple aspects of complement activation, regulation, crosstalk with other parts of the immune system and the options to target complement in COVIDâ€19 patients to halt disease progression and death.
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