Peptidomimetic inhibitors of TMPRSS2 block SARS-CoV-2 infection in cell culture

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作者
Lukas Wettstein
Philip Maximilian Knaff
Christian Kersten
Patrick Müller
Tatjana Weil
Carina Conzelmann
Janis A Müller
Maximilian Brückner
Markus Hoffmann
Stefan Pöhlmann
Tanja Schirmeister
Katharina Landfester
Jan Münch
Volker Mailänder
机构
[1] Ulm University Medical Center,Institute of Molecular Virology
[2] Dermatology Clinic of the University Medicine of the Johannes Gutenberg University Mainz,Institute of Pharmaceutical and Biomedical Sciences
[3] Max Planck Institute for Polymer Research,Institute of Virology
[4] Johannes Gutenberg University Mainz,Infection Biology Unit
[5] Philipps University Marburg,Faculty of Biology and Psychology
[6] German Primate Center,Core Facility Functional Peptidomics
[7] Georg-August-University Göttingen,undefined
[8] Ulm University Medical Center,undefined
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Communications Biology | / 5卷
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摘要
The transmembrane serine protease 2 (TMPRSS2) primes the SARS-CoV-2 Spike (S) protein for host cell entry and represents a promising target for COVID-19 therapy. Here we describe the in silico development and in vitro characterization of peptidomimetic TMPRSS2 inhibitors. Molecular docking studies identified peptidomimetic binders of the TMPRSS2 catalytic site, which were synthesized and coupled to an electrophilic serine trap. The compounds inhibit TMPRSS2 while demonstrating good off-target selectivity against selected coagulation proteases. Lead candidates are stable in blood serum and plasma for at least ten days. Finally, we show that selected peptidomimetics inhibit SARS-CoV-2 Spike-driven pseudovirus entry and authentic SARS-CoV-2 infection with comparable efficacy as camostat mesylate. The peptidomimetic TMPRSS2 inhibitors also prevent entry of recent SARS-CoV-2 variants of concern Delta and Omicron BA.1. In sum, our study reports antivirally active and stable TMPRSS2 inhibitors with prospects for further preclinical and clinical development as antiviral agents against SARS-CoV-2 and other TMPRSS2-dependent viruses.
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