Effect of Systemic Inflammatory Response to SARS-CoV-2 on Lopinavir and Hydroxychloroquine Plasma Concentrations

Marzolini, Catia; Stader, Felix; Stoeckle, Marcel; Franzeck, Fabian; Egli, Adrian; Bassetti, Stefano; Hollinger, Alexa; Osthoff, Michael; Weisser, Maja; Gebhard, Eva Caroline; Baettig, Veronika; Geenen, Julia; Khanna, Nina; Tschudin‐Sutter, Sarah; Müeller, Daniel J.; Hirsch, Hans H.; Battegay, Manuel; Sendi, Parham

doi:10.1101/2020.07.05.20146878

2020

DOI: 10.1101/2020.07.05.20146878

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Effect of Systemic Inflammatory Response to SARS-CoV-2 on Lopinavir and Hydroxychloroquine Plasma Concentrations

Catia Marzolini

Felix Stader

Marcel Stoeckle

et al.

Abstract: Background: Coronavirus disease 2019 (COVID-19) leads to inflammatory cytokine release, which can downregulate the expression of metabolizing enzymes. This cascade affects drug concentrations in the plasma. We investigated the association between lopinavir (LPV) and hydroxychloroquine (HCQ) plasma concentrations and the values of acute phase inflammation marker C-reactive protein (CRP). Methods: LPV plasma concentrations were prospectively collected in 92 patients hospitalized at our institution. Lopin… Show more

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A Systems Biology Workflow for Drug and Vaccine Repurposing: Identifying Small-Molecule BCG Mimics to Reduce or Prevent COVID-19 Mortality

Hajjo

Tropsha

2020

Pharm Res

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Purpose Coronavirus disease 2019 (COVID-19) is expected to continue to cause worldwide fatalities until the World population develops 'herd immunity', or until a vaccine is developed and used as a prevention. Meanwhile, there is an urgent need to identify alternative means of antiviral defense. Bacillus Calmette-Guérin (BCG) vaccine that has been recognized for its off-target beneficial effects on the immune system can be exploited to boast immunity and protect from emerging novel viruses. Methods We developed and employed a systems biology workflow capable of identifying small-molecule antiviral drugs and vaccines that can boast immunity and affect a wide variety of viral disease pathways to protect from the fatal consequences of emerging viruses. Results Our analysis demonstrates that BCG vaccine affects the production and maturation of naïve T cells resulting in enhanced, long-lasting trained innate immune responses that can provide protection against novel viruses. We have identified small-molecule BCG mimics, including antiviral drugs such as raltegravir and lopinavir as high confidence hits. Strikingly, our top hits emetine and lopinavir were independently validated by recent experimental findings that these compounds inhibit the growth of SARS-CoV-2 in vitro. Conclusions Our results provide systems biology support for using BCG and small-molecule BCG mimics as putative vaccine and drug candidates against emergent viruses including SARS-CoV-2. KEY WORDS BCG vaccine. COVID-19. innate immunity. SARS-CoV-2. systems biology ABBREVIATIONS BCG Bacillus Calmette-Guérin BIND Biomolecular interaction network database BioGRID Biological general repository for interaction datasets CMap Connectivity map COVID-19 Coronavirus disease 2019 DIP Database of interacting proteins FDA The Food and Drug Administration GEO Gene expression omnibus GO Gene ontology KEGG Kyoto encyclopedia of genes and genomes Mtb Mycobacterium tuberculosis RCTs Randomized clinical trials STRING Search tool for the retrieval of interacting genes/proteins WHO World Health Organization

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A Systems Biology Workflow for Drug and Vaccine Repurposing: Identifying Small-Molecule BCG Mimics to Reduce or Prevent COVID-19 Mortality

Hajjo

Tropsha

2020

Pharm Res

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Effect of Systemic Inflammatory Response to SARS-CoV-2 on Lopinavir and Hydroxychloroquine Plasma Concentrations

Cited by 1 publication

References 43 publications

A Systems Biology Workflow for Drug and Vaccine Repurposing: Identifying Small-Molecule BCG Mimics to Reduce or Prevent COVID-19 Mortality

A Systems Biology Workflow for Drug and Vaccine Repurposing: Identifying Small-Molecule BCG Mimics to Reduce or Prevent COVID-19 Mortality

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