Author: Seitz, Rainer; Gürtler, Lutz; Schramm, Wolfgang
Title: Thromboinflammation in COVIDâ€19: Can α(2)â€macroglobulin help to control the fire? Cord-id: njjfprv0 Document date: 2020_12_19
ID: njjfprv0
Snippet: The complex COVIDâ€19â€associated coagulopathy appears to impair prognosis. Recently, we presented the hypothesis that children are to some extent protected by higher α(2)â€macroglobulin (α(2)â€M) levels from severe COVIDâ€19. In addition to endothelial cells, thrombin, and platelets, neutrophil granulocytes also appear to play an important role. Neutrophils extrude extracellular nets, which are histone†and proteaseâ€coated webâ€like DNA structures; activate coagulation and platelets
Document: The complex COVIDâ€19â€associated coagulopathy appears to impair prognosis. Recently, we presented the hypothesis that children are to some extent protected by higher α(2)â€macroglobulin (α(2)â€M) levels from severe COVIDâ€19. In addition to endothelial cells, thrombin, and platelets, neutrophil granulocytes also appear to play an important role. Neutrophils extrude extracellular nets, which are histone†and proteaseâ€coated webâ€like DNA structures; activate coagulation and platelets; and release radicals and proteases such as elastase. The unique phylogenetically ancient and “versatile†inhibitor α(2)â€M contributes particularly during childhood to the antithrombin activity of plasma, binds a broad spectrum of proteases, and interacts with other mediators of inflammation such as cytokines. It is suggested that the scope of basic research and clinical studies would include the potential role of α(2)â€M in COVIDâ€19.
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