Endothelial Cell Activation by SARS-CoV-2 Spike Protein and Its RBD: Central Player of the Immunothrobotic Response in COVID-19
Alan Cano-Mendez, Nallely Garcia-Larragoiti, Yesenia Ambriz-Murillo, Jennifer Velez-Chavez, Rogelio Vega-Agavo, Gerardo Vazquez-Marrufo, Ana Edith Higareda-Mendoza, Alejandra Ochoa-Zarzosa, Martha Eva Viveros-Sandoval

TL;DR
This study shows how the SARS-CoV-2 Spike protein and its RBD activate endothelial cells, leading to inflammation and blood clotting in COVID-19.
Contribution
The study identifies specific endothelial receptors and demonstrates a stronger response from the RBD compared to the full Spike protein.
Findings
Endothelial cells exposed to the S protein and RBD showed increased release of immunothrombotic biomarkers.
Molecular docking revealed potential interactions between the S protein and receptors like CD-141, CD-147, IL-6R, and TLRs.
The RBD induced a stronger endothelial response compared to the full Spike protein.
Abstract
COVID-19 has been associated with an active immunothrombotic process. The involvement of endothelial cells (ECs) in the feedback loop of the inflammatory and thrombotic process characteristic of COVID-19, as well as its differences with other infectious inflammatory conditions, remains an area requiring further elucidation. This study aimed to assess the immunothrombotic phenotype induced by the SARS-CoV-2 Spike (S) protein and its receptor-binding domain (RBD) in endothelial-derived cell lines. HUVEC and EA.hy926 cell lines were exposed to S protein and to its RBD. Inflammatory, thrombotic, and fibrinolytic mediators were quantified. Molecular docking assays were conducted to identify potential EC receptors for S protein. EC activation was dependent on both protein concentration and stimulation time. An increased release of immunothrombotic biomarkers were observed in…
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Taxonomy
TopicsCOVID-19 Clinical Research Studies · Diverse Scientific Research Studies · Inflammation biomarkers and pathways
