Ellie Karampini scite author profile

Background Persistent symptoms including breathlessness, fatigue and decreased exercise tolerance have been reported in patients after acute SARS‐CoV‐2 infection. The biological mechanisms underlying this ‘ Long COVID ’ syndrome remain unknown. However, autopsy studies have highlighted the key roles played by pulmonary endotheliopathy and microvascular immunothrombosis in acute COVID‐19. We hypothesized that endothelial cell activation may be sustained in convalescent COVID‐19 patients and contribute to Long COVID pathogenesis. Patients and Methods Fifty patients were reviewed at a median of 68 days following SARS‐CoV‐2 infection. In addition to clinical workup, acute phase markers, EC activation and NETosis parameters and thrombin generation were assessed. Results Thrombin generation assays revealed significantly shorter lag times (p<0.0001, 95% CI ‐2.57– ‐1.02min), increased endogenous thrombin potential (ETP) (p=0.04, 95% CI 15–416nM/min) and peak thrombin (p<0.0001, 95% CI 39–93nM) in convalescent COVID‐19 patients. These pro‐thrombotic changes were independent of ongoing acute phase response or active NETosis. Importantly, EC biomarkers including VWF:Ag, VWF propeptide (VWFpp) and Factor VIII (FVIII:C) were significantly elevated in convalescent COVID‐19 compared to controls (p=0.004, 95% CI 0.09–0.57IU/ml; p=0.009, 95% CI 0.06–0.5IU/ml; p=0.04, 95% CI 0.03–0.44IU/ml, respectively). In addition, plasma soluble thrombomodulin (sTM) levels were significantly elevated in convalescent COVID‐19 (p=0.02, 95% CI 0.01–2.7ng/ml). Sustained endotheliopathy was more frequent in older, comorbid patients and those requiring hospitalization. Finally, both plasma VWF:Ag and VWFpp levels correlated inversely with 6‐minute walk tests. Conclusions Collectively, our findings demonstrate that sustained endotheliopathy is common in convalescent COVID‐19 and raise the intriguing possibility that this may contribute to Long COVID pathogenesis.

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Von Willebrand factor propeptide in severe coronavirus disease 2019 (COVID‐19): evidence of acute and sustained endothelial cell activation

Ward

Curley²,

et al. 2020

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Summary Endothelial cell (EC) activation plays a key role in the pathogenesis of pulmonary microvascular occlusion, which is a hallmark of severe coronavirus disease 2019 (COVID‐19). Consistent with EC activation, increased plasma von Willebrand factor antigen (VWF:Ag) levels have been reported in COVID‐19. Importantly however, studies in other microangiopathies have shown that plasma VWF propeptide (VWFpp) is a more sensitive and specific measure of acute EC activation. In the present study, we further investigated the nature of EC activation in severe COVID‐19. Markedly increased plasma VWF:Ag [median (interquatile range, IQR) 608·8 (531–830)iu/dl] and pro‐coagulant factor VIII (FVIII) levels [median (IQR) 261·9 (170–315) iu/dl] were seen in patients with severe severe acute respiratory syndrome coronavirus‐2 (SARS‐CoV‐2) infection. Sequential testing showed that these elevated VWF–FVIII complex levels remained high for up to 3 weeks. Similarly, plasma VWFpp levels were also markedly elevated [median (IQR) 324·6 (267–524) iu/dl]. Interestingly however, the VWFpp/VWF:Ag ratio was reduced, demonstrating that decreased VWF clearance contributes to the elevated plasma VWF:Ag levels in severe COVID‐19. Importantly, plasma VWFpp levels also correlated with clinical severity indices including the Sequential Organ Failure Assessment (SOFA) score, Sepsis‐Induced Coagulopathy (SIC) score and the ratio of arterial oxygen partial pressure to fractional inspired oxygen (P/F ratio). Collectively, these findings support the hypothesis that sustained fulminant EC activation is occurring in severe COVID‐19, and further suggest that VWFpp may have a role as a biomarker in this setting.

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Exocytosis of Weibel–Palade bodies: how to unpack a vascular emergency kit

Schillemans

Karampini

Kat

et al. 2019

Journal of Thrombosis and Haemostasis

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Summary The blood vessel wall has a number of self‐healing properties, enabling it to minimize blood loss and prevent or overcome infections in the event of vascular trauma. Endothelial cells prepackage a cocktail of hemostatic, inflammatory and angiogenic mediators in their unique secretory organelles, the Weibel–Palade bodies (WPBs), which can be immediately released on demand. Secretion of their contents into the vascular lumen through a process called exocytosis enables the endothelium to actively participate in the arrest of bleeding and to slow down and direct leukocytes to areas of inflammation. Owing to their remarkable elongated morphology and their secretory contents, which span the entire size spectrum of small chemokines all the way up to ultralarge von Willebrand factor multimers, WPBs constitute an ideal model system for studying the molecular mechanisms of secretory organelle biogenesis, exocytosis, and content expulsion. Recent studies have now shown that, during exocytosis, WPBs can undergo several distinct modes of fusion, and can utilize fundamentally different mechanisms to expel their contents. In this article, we discuss recent advances in our understanding of the composition of the WPB exocytotic machinery and how, because of its configuration, it is able to support WPB release in its various forms.

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Ellie Karampini

Persistent endotheliopathy in the pathogenesis of long COVID syndrome

Von Willebrand factor propeptide in severe coronavirus disease 2019 (COVID‐19): evidence of acute and sustained endothelial cell activation

Exocytosis of Weibel–Palade bodies: how to unpack a vascular emergency kit

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