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<a href="http://doi.org/10.1021/acsptsci.1c00016" target="_blank" rel="noreferrer noopener">http://doi.org/10.1021/acsptsci.1c00016</a>
Pages
870-887
Issue
2
Volume
4
ISSN
2575-9108
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Update Year & Number
May 2021 List
NEOMED College
NEOMED College of Pharmacy
NEOMED Department
Department of Pharmaceutical Sciences
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Tissue-Specific Proteomics Analysis of Anti-COVID-19 Nucleoside and Nucleotide Prodrug-Activating Enzymes Provides Insights into the Optimization of Prodrug Design and Pharmacotherapy Strategy.
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Acs Pharmacology & Translational Science
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2021
2021-04-01
Creator
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Li J; Liu S; Shi J; Wang X; Xue Y; Zhu H-J
Description
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Nucleoside and nucleotide analogs are an essential class of antivirals for COVID-19 treatment. Several nucleoside/nucleotide analogs have shown promising effects against SARS-CoV-2 in vitro ; however, their in vivo efficacy is limited. Nucleoside/nucleotide analogs are often formed as ester prodrugs to improve pharmacokinetics (PK) performance. After entering cells, the prodrugs undergo several enzymatic metabolism steps to form the active metabolite triphosphate nucleoside (TP-Nuc); prodrug activation is therefore associated with the abundance and catalytic activity of the corresponding activating enzymes. Having the activation of nucleoside/nucleotide prodrugs occur at the target site of action, such as the lung, is critical for anti-SARS-CoV-2 efficacy. Herein, we conducted an absolute quantitative proteomics study to determine the expression of relevant activating enzymes in human organs related to the PK and antiviral efficacy of nucleoside/nucleotide prodrugs, including the lung, liver, intestine, and kidney. The protein levels of prodrug-activating enzymes differed significantly among the tissues. Using catalytic activity values reported previously for individual enzymes, we calculated prodrug activation profiles in these tissues. The prodrugs evaluated in this study include nine McGuigan phosphoramidate prodrugs, two cyclic monophosphate prodrugs, two l-valyl ester prodrugs, and one octanoate prodrug. Our analysis showed that most orally administered nucleoside/nucleotide prodrugs were primarily activated in the liver, suggesting that parenteral delivery routes such as inhalation and intravenous infusion could be better options when these antiviral prodrugs are used to treat COVID-19. The results also indicated that the l-valyl ester prodrug design can plausibly improve drug bioavailability and enhance effects against SARS-CoV-2 intestinal infections. This study further revealed that an octanoate prodrug could provide a long-acting antiviral effect targeting SARS-CoV-2 infections in the lung. Finally, our molecular docking analysis suggested several prodrug forms of favipiravir and GS-441524 that are likely to exhibit favorable PK features over existing prodrug forms. In sum, this study revealed the activation mechanisms of various nucleoside/nucleotide prodrugs relevant to COVID-19 treatment in different organs and shed light on the development of more effective anti-COVID-19 prodrugs. (© 2021 American Chemical Society.)
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<a href="http://doi.org/10.1021/acsptsci.1c00016" target="_blank" rel="noreferrer noopener">10.1021/acsptsci.1c00016</a>
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journalArticle
2021
Acs Pharmacology & Translational Science
Department of Pharmaceutical Sciences
journalArticle
Li J
Liu S
May 2021 List
NEOMED College of Pharmacy
Shi J
Wang X
Xue Y
Zhu H-J