Review

. 2022 Aug:8:100117.

doi: 10.1016/j.tru.2022.100117. Epub 2022 Jul 9.

The interplay between inflammation and thrombosis in COVID-19: Mechanisms, therapeutic strategies, and challenges

Li Ma¹, Joanne Willey¹

Affiliations

PMID: 38620713
PMCID: PMC9270234
DOI: 10.1016/j.tru.2022.100117

Review

The interplay between inflammation and thrombosis in COVID-19: Mechanisms, therapeutic strategies, and challenges

Li Ma et al. Thromb Update. 2022 Aug.

. 2022 Aug:8:100117.

doi: 10.1016/j.tru.2022.100117. Epub 2022 Jul 9.

Authors

Li Ma¹, Joanne Willey¹

Affiliation

¹ Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, Hempstead, NY, 11549, USA.

PMID: 38620713
PMCID: PMC9270234
DOI: 10.1016/j.tru.2022.100117

Abstract

Coronavirus disease 2019 (COVID-19), caused by a severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), can cause life-threatening pathology characterized by a dysregulated immune response and coagulopathy. While respiratory failure induced by inflammation is the most common cause of death, micro-and macrovascular thrombosis leading to multiple organ failure are also causes of mortality. Dysregulation of systemic inflammation observed in severe COVID-19 patients is manifested by cytokine release syndrome (CRS) - the aberrant release of high levels of proinflammatory cytokines, such as IL-6, IL-1, TNFα, MP-1, as well as complement. CRS is often accompanied by activation of endothelial cells and platelets, coupled with perturbation of the balance between the pro-and antithrombotic mechanisms, resulting in thrombosis. Inflammation and thrombosis form a vicious circle, contributing to morbidity and mortality. Treatment of hyperinflammation has been shown to decrease thrombosis, while anti-thrombotic treatment also downregulates cytokine release. This review highlights the relationship between COVID-19-mediated systemic inflammation and thrombosis, the molecular pathways involved, the therapies targeting these processes, and the challenges currently encountered.

Keywords: Acid sphingomyelinase inhibitors; Anti-NETosis; Anticoagulant; Antiinflammation; Antiplatelet; COVID-19; Cytokine; Fibrinolytic; Therapeutic plasma exchange; Tissue factor inhibitors; von Wlliebrand factor.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

**Fig. 1**
**Physiological antithrombotic properties of endothelial cells and the blood.** (A) Anticoagulant properties: TFPI inhibits TF-mediated clotting by binding and neutralizing TF-FVIIa and FXa. Heparan sulphates located on endothelial cell surfaces enhance the capacity of ATIII-mediated inhibition of thrombin, factors IXa, Xa, XIa and XIIa. Thrombin (T)-mediated activation of PC is initiated by thrombin binding to TM on endothelial cell surfaces. EPCR enhances PC activation by binding PC and presenting it to the thrombin-TM complex for activation. Activated PC (APC) then detaches from the EPCR and interacts with PS to inactivate factors Va and VIIIa. (B) Fibrinolytic properties: tPA released from endothelial cells coverts plasminogen into plasmin, which lyses insoluble fibrin into degradation products, including D-dimer. (C) Antiplatelet properties: endothelial production and release of NO and PGI₂, as well as expression of CD39, an ectonucleotidase, inhibit platelet activation. TFPI, tissue factor pathway inhibitor; HS, heparan sulphate; ATIII, antithrombin III; TM, thrombomodulin; EPCR, endothelial protein C receptor; PC, protein C; APC, activated protein C; PS, cofactor protein S; tPA, tissue plasminogen activator; NO, nitric oxide; PGI2, prostacyclin.

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The interplay between inflammation and thrombosis in COVID-19: Mechanisms, therapeutic strategies, and challenges

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The interplay between inflammation and thrombosis in COVID-19: Mechanisms, therapeutic strategies, and challenges

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