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Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
by Zhanapiya, Anuar , Grzywa, Renata , Assylbekova, Akmaral , Sienczyk, Marcin , Schönbach, Christian , Burster, Timo
in Amino acids / camostat / cathepsin G / Clinical trials / Coronaviruses / COVID-19 / Energy / Hydrogen bonds / Infections / neutrophil elastase / Neutrophils / Peptides / proteinase 3 / Proteins / SARS-CoV-2 / serine proteases / Severe acute respiratory syndrome coronavirus 2
2022
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Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
by Zhanapiya, Anuar , Grzywa, Renata , Assylbekova, Akmaral , Sienczyk, Marcin , Schönbach, Christian , Burster, Timo
in Amino acids / camostat / cathepsin G / Clinical trials / Coronaviruses / COVID-19 / Energy / Hydrogen bonds / Infections / neutrophil elastase / Neutrophils / Peptides / proteinase 3 / Proteins / SARS-CoV-2 / serine proteases / Severe acute respiratory syndrome coronavirus 2
2022
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Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
by Zhanapiya, Anuar , Grzywa, Renata , Assylbekova, Akmaral , Sienczyk, Marcin , Schönbach, Christian , Burster, Timo
in Amino acids / camostat / cathepsin G / Clinical trials / Coronaviruses / COVID-19 / Energy / Hydrogen bonds / Infections / neutrophil elastase / Neutrophils / Peptides / proteinase 3 / Proteins / SARS-CoV-2 / serine proteases / Severe acute respiratory syndrome coronavirus 2
2022

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Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases
Journal Article

Camostat Does Not Inhibit the Proteolytic Activity of Neutrophil Serine Proteases

Zhanapiya, Anuar,
Grzywa, Renata,
Assylbekova, Akmaral,
Sienczyk, Marcin,
Schönbach, Christian,
Burster, Timo
2022
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Overview
Coronavirus disease 2019 (COVID-19) can lead to multi-organ failure influenced by comorbidities and age. Binding of the severe acute respiratory syndrome coronavirus 2 spike protein (SARS-CoV-2 S protein) to angiotensin-converting enzyme 2 (ACE2), along with proteolytic digestion of the S protein by furin and transmembrane protease serine subtype 2 (TMPRSS2), provokes internalization of SARS-CoV-2 into the host cell. Productive infection occurs through viral replication in the cytosol and cell-to-cell transmission. The catalytic activity of TMPRSS2 can be blocked by the trypsin-like serine protease inhibitor camostat, which impairs infection by SARS-CoV-2. At the site of infection, immune cells, such as neutrophils, infiltrate and become activated, releasing neutrophil serine proteases (NSPs), including cathepsin G (CatG), neutrophil elastase (NE), and proteinase 3 (PR3), which promote the mounting of a robust immune response. However, NSPs might be involved in infection and the severe outcome of COVID-19 since the uncontrolled proteolytic activity is responsible for many complications, including autoimmunity, chronic inflammatory disorders, cardiovascular diseases, and thrombosis. Here, we demonstrate that camostat does not inhibit the catalytic activity of CatG, NE, and PR3, indicating the need for additional selective serine protease inhibitors to reduce the risk of developing severe COVID-19.
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Publisher
MDPI AG,MDPI
Subject

Amino acids

/ camostat

/ cathepsin G

/ Clinical trials

/ Coronaviruses

/ COVID-19

/ Energy

/ Hydrogen bonds

/ Infections

/ neutrophil elastase

/ Neutrophils

/ Peptides

/ proteinase 3

/ Proteins

/ SARS-CoV-2

/ serine proteases

/ Severe acute respiratory syndrome coronavirus 2

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