A New Class of Uracil–DNA Glycosylase Inhibitors Active against Human and Vaccinia Virus Enzyme

A New Class of Uracil–DNA Glycosylase Inhibitors Active against Human and Vaccinia Virus Enzyme

Uracil–DNA glycosylases are enzymes that excise uracil bases appearing in DNA as a result of cytosine deamination or accidental dUMP incorporation from the dUTP pool. The activity of Family 1 uracil–DNA glycosylase (UNG) activity limits the efficiency of antimetabolite drugs and is essential for vir...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 26; no. 21; p. 6668
Main Authors: Grin, Inga R., Mechetin, Grigory V., Kasymov, Rustem D., Diatlova, Evgeniia A., Yudkina, Anna V., Shchelkunov, Sergei N., Gileva, Irina P., Denisova, Alexandra A., Stepanov, Grigoriy A., Chilov, Ghermes G., Zharkov, Dmitry O.
Format: Journal Article
Language:English
Published: Basel MDPI AG 03-11-2021
MDPI
Subjects:
Antiinfectives and antibacterials
Antiviral agents
Cytosine
Deamination
Deoxyribonucleic acid
Dihydrofolate reductase
DNA
DNA glycosylase
DNA repair
DNA viruses
Drug dosages
Enzymes
Hydrogen bonds
Inhibitors
Ligands
Methotrexate
Pharmacology
Pharmacophores
pyrimidines
Toxicity
Uracil
uracil–DNA glycosylase
virtual screening
Virulence
Viruses
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Summary:Uracil–DNA glycosylases are enzymes that excise uracil bases appearing in DNA as a result of cytosine deamination or accidental dUMP incorporation from the dUTP pool. The activity of Family 1 uracil–DNA glycosylase (UNG) activity limits the efficiency of antimetabolite drugs and is essential for virulence in some bacterial and viral infections. Thus, UNG is regarded as a promising target for antitumor, antiviral, antibacterial, and antiprotozoal drugs. Most UNG inhibitors presently developed are based on the uracil base linked to various substituents, yet new pharmacophores are wanted to target a wide range of UNGs. We have conducted virtual screening of a 1,027,767-ligand library and biochemically screened the best hits for the inhibitory activity against human and vaccinia virus UNG enzymes. Although even the best inhibitors had IC50 ≥ 100 μM, they were highly enriched in a common fragment, tetrahydro-2,4,6-trioxopyrimidinylidene (PyO3). In silico, PyO3 preferably docked into the enzyme’s active site, and in kinetic experiments, the inhibition was better consistent with the competitive mechanism. The toxicity of two best inhibitors for human cells was independent of the presence of methotrexate, which is consistent with the hypothesis that dUMP in genomic DNA is less toxic for the cell than strand breaks arising from the massive removal of uracil. We conclude that PyO3 may be a novel pharmacophore with the potential for development into UNG-targeting agents.
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ISSN:1420-3049
1420-3049
DOI:10.3390/molecules26216668