Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19

The pathogenesis of multi-organ dysfunction associated with severe acute SARS-CoV-2 infection remains poorly understood. Endothelial damage and microvascular thrombosis have been identified as drivers of COVID-19 severity, yet the mechanisms underlying these processes remain elusive. Here we show al...

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Autores principales: Druzak, Samuel, Iffrig, Elizabeth, Roberts, Blaine R., Zhang, Tiantian, Fibben, Kirby S., Sakurai, Yumiko, Verkerke, Hans P., Rostad, Christina A., Chahroudi, Ann, Schneider, Frank, Wong, Andrew Kam Ho, Roberts, Anne M., Chandler, Joshua D., Kim, Susan O., Mosunjac, Mario, Mosunjac, Marina, Geller, Rachel, Albizua, Igor, Stowell, Sean R., Arthur, Connie M., Anderson, Evan J., Ivanova, Anna A., Ahn, Jun, Liu, Xueyun, Maner-Smith, Kristal, Bowen, Thomas, Paiardini, Mirko, Bosinger, Steve E., Roback, John D., Kulpa, Deanna A., Silvestri, Guido, Lam, Wilbur A., Ortlund, Eric A., Maier, Cheryl L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10073144/
https://www.ncbi.nlm.nih.gov/pubmed/37015925
http://dx.doi.org/10.1038/s41467-023-37269-3
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author Druzak, Samuel
Iffrig, Elizabeth
Roberts, Blaine R.
Zhang, Tiantian
Fibben, Kirby S.
Sakurai, Yumiko
Verkerke, Hans P.
Rostad, Christina A.
Chahroudi, Ann
Schneider, Frank
Wong, Andrew Kam Ho
Roberts, Anne M.
Chandler, Joshua D.
Kim, Susan O.
Mosunjac, Mario
Mosunjac, Marina
Geller, Rachel
Albizua, Igor
Stowell, Sean R.
Arthur, Connie M.
Anderson, Evan J.
Ivanova, Anna A.
Ahn, Jun
Liu, Xueyun
Maner-Smith, Kristal
Bowen, Thomas
Paiardini, Mirko
Bosinger, Steve E.
Roback, John D.
Kulpa, Deanna A.
Silvestri, Guido
Lam, Wilbur A.
Ortlund, Eric A.
Maier, Cheryl L.
author_facet Druzak, Samuel
Iffrig, Elizabeth
Roberts, Blaine R.
Zhang, Tiantian
Fibben, Kirby S.
Sakurai, Yumiko
Verkerke, Hans P.
Rostad, Christina A.
Chahroudi, Ann
Schneider, Frank
Wong, Andrew Kam Ho
Roberts, Anne M.
Chandler, Joshua D.
Kim, Susan O.
Mosunjac, Mario
Mosunjac, Marina
Geller, Rachel
Albizua, Igor
Stowell, Sean R.
Arthur, Connie M.
Anderson, Evan J.
Ivanova, Anna A.
Ahn, Jun
Liu, Xueyun
Maner-Smith, Kristal
Bowen, Thomas
Paiardini, Mirko
Bosinger, Steve E.
Roback, John D.
Kulpa, Deanna A.
Silvestri, Guido
Lam, Wilbur A.
Ortlund, Eric A.
Maier, Cheryl L.
author_sort Druzak, Samuel
collection PubMed
description The pathogenesis of multi-organ dysfunction associated with severe acute SARS-CoV-2 infection remains poorly understood. Endothelial damage and microvascular thrombosis have been identified as drivers of COVID-19 severity, yet the mechanisms underlying these processes remain elusive. Here we show alterations in fluid shear stress-responsive pathways in critically ill COVID-19 adults as compared to non-COVID critically ill adults using a multiomics approach. Mechanistic in-vitro studies, using microvasculature-on-chip devices, reveal that plasma from critically ill COVID-19 adults induces fibrinogen-dependent red blood cell aggregation that mechanically damages the microvascular glycocalyx. This mechanism appears unique to COVID-19, as plasma from non-COVID sepsis patients demonstrates greater red blood cell membrane stiffness but induces less significant alterations in overall blood rheology. Multiomics analyses in pediatric patients with acute COVID-19 or the post-infectious multi-inflammatory syndrome in children (MIS-C) demonstrate little overlap in plasma cytokine and metabolite changes compared to adult COVID-19 patients. Instead, pediatric acute COVID-19 and MIS-C patients show alterations strongly associated with cytokine upregulation. These findings link high fibrinogen and red blood cell aggregation with endotheliopathy in adult COVID-19 patients and highlight differences in the key mediators of pathogenesis between adult and pediatric populations.
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spelling pubmed-100731442023-04-06 Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19 Druzak, Samuel Iffrig, Elizabeth Roberts, Blaine R. Zhang, Tiantian Fibben, Kirby S. Sakurai, Yumiko Verkerke, Hans P. Rostad, Christina A. Chahroudi, Ann Schneider, Frank Wong, Andrew Kam Ho Roberts, Anne M. Chandler, Joshua D. Kim, Susan O. Mosunjac, Mario Mosunjac, Marina Geller, Rachel Albizua, Igor Stowell, Sean R. Arthur, Connie M. Anderson, Evan J. Ivanova, Anna A. Ahn, Jun Liu, Xueyun Maner-Smith, Kristal Bowen, Thomas Paiardini, Mirko Bosinger, Steve E. Roback, John D. Kulpa, Deanna A. Silvestri, Guido Lam, Wilbur A. Ortlund, Eric A. Maier, Cheryl L. Nat Commun Article The pathogenesis of multi-organ dysfunction associated with severe acute SARS-CoV-2 infection remains poorly understood. Endothelial damage and microvascular thrombosis have been identified as drivers of COVID-19 severity, yet the mechanisms underlying these processes remain elusive. Here we show alterations in fluid shear stress-responsive pathways in critically ill COVID-19 adults as compared to non-COVID critically ill adults using a multiomics approach. Mechanistic in-vitro studies, using microvasculature-on-chip devices, reveal that plasma from critically ill COVID-19 adults induces fibrinogen-dependent red blood cell aggregation that mechanically damages the microvascular glycocalyx. This mechanism appears unique to COVID-19, as plasma from non-COVID sepsis patients demonstrates greater red blood cell membrane stiffness but induces less significant alterations in overall blood rheology. Multiomics analyses in pediatric patients with acute COVID-19 or the post-infectious multi-inflammatory syndrome in children (MIS-C) demonstrate little overlap in plasma cytokine and metabolite changes compared to adult COVID-19 patients. Instead, pediatric acute COVID-19 and MIS-C patients show alterations strongly associated with cytokine upregulation. These findings link high fibrinogen and red blood cell aggregation with endotheliopathy in adult COVID-19 patients and highlight differences in the key mediators of pathogenesis between adult and pediatric populations. Nature Publishing Group UK 2023-04-04 /pmc/articles/PMC10073144/ /pubmed/37015925 http://dx.doi.org/10.1038/s41467-023-37269-3 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Druzak, Samuel
Iffrig, Elizabeth
Roberts, Blaine R.
Zhang, Tiantian
Fibben, Kirby S.
Sakurai, Yumiko
Verkerke, Hans P.
Rostad, Christina A.
Chahroudi, Ann
Schneider, Frank
Wong, Andrew Kam Ho
Roberts, Anne M.
Chandler, Joshua D.
Kim, Susan O.
Mosunjac, Mario
Mosunjac, Marina
Geller, Rachel
Albizua, Igor
Stowell, Sean R.
Arthur, Connie M.
Anderson, Evan J.
Ivanova, Anna A.
Ahn, Jun
Liu, Xueyun
Maner-Smith, Kristal
Bowen, Thomas
Paiardini, Mirko
Bosinger, Steve E.
Roback, John D.
Kulpa, Deanna A.
Silvestri, Guido
Lam, Wilbur A.
Ortlund, Eric A.
Maier, Cheryl L.
Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title_full Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title_fullStr Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title_full_unstemmed Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title_short Multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute COVID-19
title_sort multiplatform analyses reveal distinct drivers of systemic pathogenesis in adult versus pediatric severe acute covid-19
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10073144/
https://www.ncbi.nlm.nih.gov/pubmed/37015925
http://dx.doi.org/10.1038/s41467-023-37269-3
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