Potent Anti-SARS-CoV_2 Activity by the Natural Product Gallinamide A and Analogues via Inhibition of Cathepsin L
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ArticleAuthor/s
Ashhurst, Anneliese S.Tang, Arthur H.
Fajtova_, Pavla
Yoon, Michael C.
Aggarwal, Anupriya
Bedding, Max J.
Stoye, Alexander
Beretta, Laura
Pwee, Dustin
Drelich, Aleksandra
Skinner, Danielle
Li, Linfeng
Meek, Thomas D.
McKerrow, James H.
Hook, Vivian
Tseng, Chien-Te
Larance, Mark
Turville, Stuart
Gerwick, William H.
O’Donoghue, Anthony J.
Payne, Richard J.
Abstract
Cathepsin L is a key host cysteine protease utilized by coronaviruses for cell entry and is a promising drug target for novel antivirals against SARS-CoV-2. The marine natural product gallinamide A and several synthetic analogues were identified as potent inhibitors of cathepsin L ...
See moreCathepsin L is a key host cysteine protease utilized by coronaviruses for cell entry and is a promising drug target for novel antivirals against SARS-CoV-2. The marine natural product gallinamide A and several synthetic analogues were identified as potent inhibitors of cathepsin L with IC50 values in the picomolar range. Lead molecules possessed selectivity over other cathepsins and alternative host proteases involved in viral entry. Gallinamide A directly interacted with cathepsin L in cells and, together with two lead analogues, potently inhibited SARS-CoV-2 infection in vitro, with EC50 values in the nanomolar range. Reduced antiviral activity was observed in cells overexpressing transmembrane protease, serine 2 (TMPRSS2); however, a synergistic improvement in antiviral activity was achieved when combined with a TMPRSS2 inhibitor. These data highlight the potential of cathepsin L as a COVID-19 drug target as well as the likely need to inhibit multiple routes of viral entry to achieve efficacy.
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See moreCathepsin L is a key host cysteine protease utilized by coronaviruses for cell entry and is a promising drug target for novel antivirals against SARS-CoV-2. The marine natural product gallinamide A and several synthetic analogues were identified as potent inhibitors of cathepsin L with IC50 values in the picomolar range. Lead molecules possessed selectivity over other cathepsins and alternative host proteases involved in viral entry. Gallinamide A directly interacted with cathepsin L in cells and, together with two lead analogues, potently inhibited SARS-CoV-2 infection in vitro, with EC50 values in the nanomolar range. Reduced antiviral activity was observed in cells overexpressing transmembrane protease, serine 2 (TMPRSS2); however, a synergistic improvement in antiviral activity was achieved when combined with a TMPRSS2 inhibitor. These data highlight the potential of cathepsin L as a COVID-19 drug target as well as the likely need to inhibit multiple routes of viral entry to achieve efficacy.
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Date
2021Funding information
Fogarty International Center
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Faculty of Science, School of ChemistryFaculty of Science, School of Life and Environmental Sciences
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