Structural Relationships to Efficacy for Prazole‐Derived Antivirals

David A. Nyenhuis; Susan Watanabe; Rebecca Bernstein; Rolf E. Swenson; Natarajan Raju; Venkata R. Sabbasani; Chandrasekhar Mushti; Duck‐Yeon Lee; Carol Carter; Nico Tjandra

doi:10.1002/advs.202308312

Advanced Science (May 2024)

Structural Relationships to Efficacy for Prazole‐Derived Antivirals

David A. Nyenhuis,
Susan Watanabe,
Rebecca Bernstein,
Rolf E. Swenson,
Natarajan Raju,
Venkata R. Sabbasani,
Chandrasekhar Mushti,
Duck‐Yeon Lee,
Carol Carter,
Nico Tjandra

Affiliations

David A. Nyenhuis: Biochemistry and Biophysics Center NHLBI NIH 50 South Drive, Bld 50, Rm 3503 Bethesda MD 20892 USA
Susan Watanabe: Department of Microbiology and Immunology Renaissance School of Medicine Stonybrook University Life Sciences Bldg, Rm 248 Stonybrook NY 11790 USA
Rebecca Bernstein: Biochemistry and Biophysics Center NHLBI NIH 50 South Drive, Bld 50, Rm 3503 Bethesda MD 20892 USA
Rolf E. Swenson: Chemistry and Synthesis Center NHLBI NIH 9800 Medical Center Drive, Bldg B, #2034 Rockville MD 20850 USA
Natarajan Raju: Chemistry and Synthesis Center NHLBI NIH 9800 Medical Center Drive, Bldg B, #2034 Rockville MD 20850 USA
Venkata R. Sabbasani: Chemistry and Synthesis Center NHLBI NIH 9800 Medical Center Drive, Bldg B, #2034 Rockville MD 20850 USA
Chandrasekhar Mushti: Chemistry and Synthesis Center NHLBI NIH 9800 Medical Center Drive, Bldg B, #2034 Rockville MD 20850 USA
Duck‐Yeon Lee: Biochemistry Core Facility NHLBI NIH Bethesda MD 20892 USA
Carol Carter: Department of Microbiology and Immunology Renaissance School of Medicine Stonybrook University Life Sciences Bldg, Rm 248 Stonybrook NY 11790 USA
Nico Tjandra: Biochemistry and Biophysics Center NHLBI NIH 50 South Drive, Bld 50, Rm 3503 Bethesda MD 20892 USA

DOI: https://doi.org/10.1002/advs.202308312
Journal volume & issue: Vol. 11, no. 18
pp. n/a – n/a

Abstract

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Abstract Here, an in vitro characterization of a family of prazole derivatives that covalently bind to the C73 site on Tsg101 and assay their ability to inhibit viral particle production is presented. Structurally, increased steric bulk on the 4‐pyridyl of the prazole expands the prazole site on the UEV domain toward the β‐hairpin in the Ub‐binding site and is coupled to increased inhibition of virus‐like particle production in HIV‐1. Increased bulk also increased toxicity, which is alleviated by increasing flexibility. Further, the formation of a novel secondary Tsg101 adduct for several of the tested compounds and the commercial drug lansoprazole. The secondary adduct involved the loss of the 4‐pyridyl substituent to form an irreversible species, with implications for increasing the half‐life of the active species or its specificity toward Tsg101 UEV. It is also determined that sulfide derivatives display effective viral inhibition, presumably through cellular sulfoxidation, allowing for delayed conversion within the cellular environment, and identify SARS‐COV‐2 as a target of prazole inhibition. These results open multiple avenues for the design of prazole derivatives for antiviral applications.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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