Author: Griffin, John H.; Lyden, Patrick
Title: COVIDâ€19 hypothesis: Activated protein C for therapy of virusâ€induced pathologic thromboinflammation Cord-id: ktxi3v3a Document date: 2020_6_12
ID: ktxi3v3a
Snippet: Seriously ill patients with coronavirus disease 2019 (COVIDâ€19) at risk for death exhibit elevated cytokine and chemokine levels and Dâ€dimer, and they often have comorbidities related to vascular dysfunctions. In preclinical studies, activated protein C (APC) provides negative feedback downregulation of excessive inflammation and thrombin generation, attenuates damage caused by ischemiaâ€reperfusion in many organs including lungs, and reduces death caused by bacterial pneumonia. APC exerts
Document: Seriously ill patients with coronavirus disease 2019 (COVIDâ€19) at risk for death exhibit elevated cytokine and chemokine levels and Dâ€dimer, and they often have comorbidities related to vascular dysfunctions. In preclinical studies, activated protein C (APC) provides negative feedback downregulation of excessive inflammation and thrombin generation, attenuates damage caused by ischemiaâ€reperfusion in many organs including lungs, and reduces death caused by bacterial pneumonia. APC exerts both anticoagulant activities and direct cellâ€signaling activities. Preclinical studies show that its direct cellâ€signaling actions mediate antiâ€inflammatory and antiâ€apoptotic actions, mortality reduction for pneumonia, and beneficial actions for ischemiaâ€reperfusion injury. The APC mutant 3K3Aâ€APC, which was engineered to have diminished anticoagulant activity while retaining cellâ€signaling actions, was safe in phase 1 and phase 2 human trials. Because of its broad spectrum of homeostatic effects in preclinical studies, we speculate that 3K3Aâ€APC merits consideration for clinical trial studies in appropriately chosen, seriously ill patients with COVIDâ€19.
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