Preferential uptake of SARS-CoV-2 by pericytes potentiates vascular damage and permeability in an organoid model of the microvasculature
Preferential uptake of SARS-CoV-2 by pericytes potentiates vascular damage and permeability in an organoid model of the microvasculature
AIMS: Thrombotic complications and vasculopathy have been extensively associated with severe COVID-19 infection; however, the mechanisms inducing endotheliitis and the disruption of endothelial integrity in the microcirculation are poorly understood. We hypothesized that within the vessel wall, pericytes preferentially take up viral particles and mediate the subsequent loss of vascular integrity. METHODS AND RESULTS: Immunofluorescence of post-mortem patient sections was used to assess pathophysiological aspects of COVID-19 infection. The effects of COVID-19 on the microvasculature were assessed using a vascular organoid model exposed to live viral particles or recombinant viral antigens. We find increased expression of the viral entry receptor angiotensin-converting enzyme 2 on pericytes when compared to vascular endothelium and a reduction in the expression of the junctional protein CD144, as well as increased cell death, upon treatment with both live virus and/or viral antigens. We observe a dysregulation of genes implicated in vascular permeability, including Notch receptor 3, angiopoietin-2, and TEK. Activation of vascular organoids with interleukin-1β did not have an additive effect on vascular permeability. Spike antigen was detected in some patients' lung pericytes, which was associated with a decrease in CD144 expression and increased platelet recruitment and von Willebrand factor (VWF) deposition in the capillaries of these patients, with thrombi in large vessels rich in VWF and fibrin. CONCLUSION: Together, our data indicate that direct viral exposure to the microvasculature modelled by organoid infection and viral antigen treatment results in pericyte infection, detachment, damage, and cell death, disrupting pericyte-endothelial cell crosstalk and increasing microvascular endothelial permeability, which can promote thrombotic and bleeding complications in the microcirculation.
COVID-19, Endothelial permeability, Organoids, SARS-CoV-2, Thrombosis, Vasculopathy
3085-3096
Khan, Abdullah O.
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Reyat, Jasmeet S.
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Hill, Harriet
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Bourne, Joshua H.
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Colicchia, Martina
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Newby, Maddy L.
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Allen, Joel D.
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Crispin, Max
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Youd, Esther
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Murray, Paul G.
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Taylor, Graham
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Stamataki, Zania
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Richter, Alex G.
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Cunningham, Adam F.
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Pugh, Matthew
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Rayes, Julie
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16 June 2022
Khan, Abdullah O.
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Reyat, Jasmeet S.
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Hill, Harriet
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Bourne, Joshua H.
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Colicchia, Martina
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Newby, Maddy L.
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Allen, Joel D.
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Crispin, Max
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Youd, Esther
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Murray, Paul G.
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Taylor, Graham
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Stamataki, Zania
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Richter, Alex G.
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Cunningham, Adam F.
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Pugh, Matthew
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Rayes, Julie
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Khan, Abdullah O., Reyat, Jasmeet S., Hill, Harriet, Bourne, Joshua H., Colicchia, Martina, Newby, Maddy L., Allen, Joel D., Crispin, Max, Youd, Esther, Murray, Paul G., Taylor, Graham, Stamataki, Zania, Richter, Alex G., Cunningham, Adam F., Pugh, Matthew and Rayes, Julie
(2022)
Preferential uptake of SARS-CoV-2 by pericytes potentiates vascular damage and permeability in an organoid model of the microvasculature.
Cardiovascular Research, 118 (15), , [cvac097].
(doi:10.1093/cvr/cvac097).
Abstract
AIMS: Thrombotic complications and vasculopathy have been extensively associated with severe COVID-19 infection; however, the mechanisms inducing endotheliitis and the disruption of endothelial integrity in the microcirculation are poorly understood. We hypothesized that within the vessel wall, pericytes preferentially take up viral particles and mediate the subsequent loss of vascular integrity. METHODS AND RESULTS: Immunofluorescence of post-mortem patient sections was used to assess pathophysiological aspects of COVID-19 infection. The effects of COVID-19 on the microvasculature were assessed using a vascular organoid model exposed to live viral particles or recombinant viral antigens. We find increased expression of the viral entry receptor angiotensin-converting enzyme 2 on pericytes when compared to vascular endothelium and a reduction in the expression of the junctional protein CD144, as well as increased cell death, upon treatment with both live virus and/or viral antigens. We observe a dysregulation of genes implicated in vascular permeability, including Notch receptor 3, angiopoietin-2, and TEK. Activation of vascular organoids with interleukin-1β did not have an additive effect on vascular permeability. Spike antigen was detected in some patients' lung pericytes, which was associated with a decrease in CD144 expression and increased platelet recruitment and von Willebrand factor (VWF) deposition in the capillaries of these patients, with thrombi in large vessels rich in VWF and fibrin. CONCLUSION: Together, our data indicate that direct viral exposure to the microvasculature modelled by organoid infection and viral antigen treatment results in pericyte infection, detachment, damage, and cell death, disrupting pericyte-endothelial cell crosstalk and increasing microvascular endothelial permeability, which can promote thrombotic and bleeding complications in the microcirculation.
Text
cvac097
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Accepted/In Press date: 25 May 2022
e-pub ahead of print date: 16 June 2022
Published date: 16 June 2022
Additional Information:
Publisher Copyright:
© The Author(s) 2022. Published by Oxford University Press on behalf of the European Society of Cardiology. All rights reserved.
Keywords:
COVID-19, Endothelial permeability, Organoids, SARS-CoV-2, Thrombosis, Vasculopathy
Identifiers
Local EPrints ID: 472325
URI: http://eprints.soton.ac.uk/id/eprint/472325
ISSN: 0008-6363
PURE UUID: 22982ce1-43ad-4ef5-8a5f-41d01a827821
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Date deposited: 01 Dec 2022 17:39
Last modified: 17 Mar 2024 04:09
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Contributors
Author:
Abdullah O. Khan
Author:
Jasmeet S. Reyat
Author:
Harriet Hill
Author:
Joshua H. Bourne
Author:
Martina Colicchia
Author:
Maddy L. Newby
Author:
Esther Youd
Author:
Paul G. Murray
Author:
Graham Taylor
Author:
Zania Stamataki
Author:
Alex G. Richter
Author:
Adam F. Cunningham
Author:
Matthew Pugh
Author:
Julie Rayes
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