Human vitamin K 2,3-epoxide reductase complex subunit 1-like 1 (VKORC1L1), expressed in HEK 293T cells and localized exclusively to membranes of the endoplasmic reticulum, was found to support both vitamin K 2,3-epoxide reductase (VKOR) and vitamin K reductase enzymatic activities. Michaelis-Menten kinetic parameters for dithiothreitol-driven VKOR activity were:
The COVID-19 pandemic has resulted in significant morbidity and mortality worldwide. To prevent severe infection, mass COVID-19 vaccination campaigns with several vaccine types are currently underway. We report pathological and immunological findings in 8 patients who developed vaccine-induced immune thrombotic thrombocytopenia (VITT) after administration of SARS-CoV-2 vaccine ChAdOx1 nCoV-19. We analyzed patient material using enzyme immune assays, flow cytometry and heparin-induced platelet aggregation assay and performed autopsies on two fatal cases. Eight patients (5 female, 3 male) with a median age of 41.5 years (range, 24 to 53) were referred to us with suspected thrombotic complications 6 to 20 days after ChAdOx1 nCoV-19 vaccination. All patients had thrombocytopenia at admission. Patients had a median platelet count of 46.5 x109/L (range, 8 to 92). Three had a fatal outcome and 5 were successfully treated. Autopsies showed arterial and venous thromboses in various organs and the occlusion of glomerular capillaries by hyaline thrombi. Sera from VITT patients contain high titer antibodies against platelet factor 4 (PF4) (OD 2.59±0.64). PF4 antibodies in VITT patients induced significant increase in procoagulant markers (P-selectin and phosphatidylserine externalization) compared to healthy volunteers and healthy vaccinated volunteers. The generation of procoagulant platelets was PF4 and heparin dependent. We demonstrate the contribution of antibody-mediated platelet activation in the pathogenesis of VITT.
Summary. Background: HD1-22 is a bivalent aptamer that binds to thrombin with high affinity (K d = 0.65 nM) and occupies both anion binding exosites without blocking the active centre of the enzyme. HD1-22 has been developed by connecting the exosite 1 binding aptamer HD1 and the exosite 2 binding aptamer HD22 through a poly-dA linker. Objectives: To characterize the anticoagulant profile of HD1-22 in comparison to the clinically established direct acting thrombin inhibitors bivalirudin and argatroban, and to test the efficacy of antidote-oligodeoxynucleotides. Methods and Results: HD1-22 prolongs clotting times of the thrombin time, activated partial thromboplastin time, ecarin clotting time, and lag-time of the tissue factor triggered thrombin generation assay in a dose-dependent manner. On a molar basis, its anticoagulant activity was nearly identical to bivalirudin and superior to argatroban. Thrombin-induced platelet aggregation was more effectively inhibited by HD1-22 than by bivalirudin. The HD1-22 aptamer retains the ability of the HD1-moiety to bind to (pro)exosite 1 of prothrombin and inhibits the prothrombinase activity nearly 2-fold better than HD1. The anticoagulant activities of HD1-22 are fully reversed by addition of antidote-oligodeoxynucleotides. Conclusions: The strong thrombin-inhibiting activity, together with the availability of a rapid acting antidote strategy, makes HD1-22 an interesting anticoagulant candidate, especially for use in clinical situations where effective anticoagulation and rapid reversal of the anticoagulant effect are required. The data obtained warrant further clinical studies.
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