A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm

A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm

Neither the disease mechanism nor treatments for COVID-19 are currently known. Here, we present a novel molecular mechanism for COVID-19 that provides therapeutic intervention points that can be addressed with existing FDA-approved pharmaceuticals. The entry point for the virus is ACE2, which is a c...

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Main Authors: Michael R Garvin, Christiane Alvarez, J Izaak Miller, Erica T Prates, Angelica M Walker, B Kirtley Amos, Alan E Mast, Amy Justice, Bruce Aronow, Daniel Jacobson
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2020-07-01
Series:eLife
Subjects:
renin-angiotensin system
bradykinin
COVID-19
hyaluronic acid
pathogenesis
Online Access:https://elifesciences.org/articles/59177
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spelling doaj-7ca8502352754188ae4bff950a8b4f2e2021-05-05T21:17:26ZengeLife Sciences Publications LtdeLife2050-084X2020-07-01910.7554/eLife.59177A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin stormMichael R Garvin0Christiane Alvarez1J Izaak Miller2Erica T Prates3Angelica M Walker4B Kirtley Amos5Alan E Mast6Amy Justice7Bruce Aronow8Daniel Jacobson9https://orcid.org/0000-0002-9822-8251Oak Ridge National Laboratory, Biosciences Division, Oak Ridge, United StatesOak Ridge National Laboratory, Biosciences Division, Oak Ridge, United StatesOak Ridge National Laboratory, Biosciences Division, Oak Ridge, United StatesOak Ridge National Laboratory, Biosciences Division, Oak Ridge, United StatesOak Ridge National Laboratory, Biosciences Division, Oak Ridge, United States; University of Tennessee Knoxville, The Bredesen Center for Interdisciplinary Research and Graduate Education, Knoxville, United StatesUniversity of Kentucky, Department of Horticulture, Lexington, United StatesVersiti Blood Research Institute, Medical College of Wisconsin, Milwaukee, United StatesVA Connecticut Healthcare/General Internal Medicine, Yale University School of Medicine, West Haven, United StatesUniversity of Cincinnati, Cincinnati, United States; Biomedical Informatics, Cincinnati Children’s Hospital Research Foundation, Cincinnati, United StatesOak Ridge National Laboratory, Biosciences Division, Oak Ridge, United States; University of Tennessee Knoxville, The Bredesen Center for Interdisciplinary Research and Graduate Education, Knoxville, United States; University of Tennessee Knoxville, Department of Psychology, Austin Peay Building, Knoxville, United StatesNeither the disease mechanism nor treatments for COVID-19 are currently known. Here, we present a novel molecular mechanism for COVID-19 that provides therapeutic intervention points that can be addressed with existing FDA-approved pharmaceuticals. The entry point for the virus is ACE2, which is a component of the counteracting hypotensive axis of RAS. Bradykinin is a potent part of the vasopressor system that induces hypotension and vasodilation and is degraded by ACE and enhanced by the angiotensin1-9 produced by ACE2. Here, we perform a new analysis on gene expression data from cells in bronchoalveolar lavage fluid (BALF) from COVID-19 patients that were used to sequence the virus. Comparison with BALF from controls identifies a critical imbalance in RAS represented by decreased expression of ACE in combination with increases in ACE2, renin, angiotensin, key RAS receptors, kinogen and many kallikrein enzymes that activate it, and both bradykinin receptors. This very atypical pattern of the RAS is predicted to elevate bradykinin levels in multiple tissues and systems that will likely cause increases in vascular dilation, vascular permeability and hypotension. These bradykinin-driven outcomes explain many of the symptoms being observed in COVID-19.https://elifesciences.org/articles/59177renin-angiotensin systembradykininCOVID-19hyaluronic acidpathogenesis
collection DOAJ
language English
format Article
sources DOAJ
author Michael R Garvin
Christiane Alvarez
J Izaak Miller
Erica T Prates
Angelica M Walker
B Kirtley Amos
Alan E Mast
Amy Justice
Bruce Aronow
Daniel Jacobson
spellingShingle Michael R Garvin
Christiane Alvarez
J Izaak Miller
Erica T Prates
Angelica M Walker
B Kirtley Amos
Alan E Mast
Amy Justice
Bruce Aronow
Daniel Jacobson
A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
eLife
renin-angiotensin system
bradykinin
COVID-19
hyaluronic acid
pathogenesis
author_facet Michael R Garvin
Christiane Alvarez
J Izaak Miller
Erica T Prates
Angelica M Walker
B Kirtley Amos
Alan E Mast
Amy Justice
Bruce Aronow
Daniel Jacobson
author_sort Michael R Garvin
title A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
title_short A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
title_full A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
title_fullStr A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
title_full_unstemmed A mechanistic model and therapeutic interventions for COVID-19 involving a RAS-mediated bradykinin storm
title_sort mechanistic model and therapeutic interventions for covid-19 involving a ras-mediated bradykinin storm
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2020-07-01
description Neither the disease mechanism nor treatments for COVID-19 are currently known. Here, we present a novel molecular mechanism for COVID-19 that provides therapeutic intervention points that can be addressed with existing FDA-approved pharmaceuticals. The entry point for the virus is ACE2, which is a component of the counteracting hypotensive axis of RAS. Bradykinin is a potent part of the vasopressor system that induces hypotension and vasodilation and is degraded by ACE and enhanced by the angiotensin1-9 produced by ACE2. Here, we perform a new analysis on gene expression data from cells in bronchoalveolar lavage fluid (BALF) from COVID-19 patients that were used to sequence the virus. Comparison with BALF from controls identifies a critical imbalance in RAS represented by decreased expression of ACE in combination with increases in ACE2, renin, angiotensin, key RAS receptors, kinogen and many kallikrein enzymes that activate it, and both bradykinin receptors. This very atypical pattern of the RAS is predicted to elevate bradykinin levels in multiple tissues and systems that will likely cause increases in vascular dilation, vascular permeability and hypotension. These bradykinin-driven outcomes explain many of the symptoms being observed in COVID-19.
topic renin-angiotensin system
bradykinin
COVID-19
hyaluronic acid
pathogenesis
url https://elifesciences.org/articles/59177
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