The Effect of Antitumor Antibiotic Olivomycin A and Its New Semi-synthetic Derivative Olivamide on the Activity of Murine DNA Methyltransferase Dnmt3a

Olivomycin A is a highly active antitumor drug that belongs to the family of aureolic acid antibiotics. The antitumor effect of olivomycin A is related to its ability to bind to the DNA minor groove in GC-rich regions as Mg 2+ -coordinated complexes. Characterization of cellular targets of olivomyci...

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Bibliographic Details
Published in:Biochemistry (Moscow) 2019, Vol.84 (1), p.62-70
Main Authors: Sergeev, A. V., Tevyashova, A. N., Vorobyov, A. P., Gromova, E. S.
Format: Article
Language:English
Subjects:
Analysis
Antibiotics
Anticancer properties
Antineoplastic antibiotics
Antitumor activity
Biochemistry
Biomedical and Life Sciences
Biomedicine
Bioorganic Chemistry
Catalysis
Covalent bonds
Cytosine
Deoxyribonucleic acid
DNA
DNA methylation
DNA methyltransferase
Drug therapy
Enzymes
Epigenetics
Gammaretroviruses
Guanylate cyclase
Life Sciences
Magnesium
Methyltransferases
Microbiology
Patient outcomes
Pharmacology
Substrates
Varieties
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Summary:Olivomycin A is a highly active antitumor drug that belongs to the family of aureolic acid antibiotics. The antitumor effect of olivomycin A is related to its ability to bind to the DNA minor groove in GC-rich regions as Mg 2+ -coordinated complexes. Characterization of cellular targets of olivomycin A and its mechanism of action is crucial for the successful application of this antibiotic in clinical practice and development of semi-synthetic derivatives with improved pharmacological properties. Previously, we have shown that minor groove ligands are able to disrupt the key epigenetic process of DNA methylation. In this paper, we have studied the impact of olivomycin A and its improved semi-synthetic analogue N,Ndimethylaminoethylamide of 1′-des-(2,3-dihydroxy- n -butyroyl)-1′-carboxy-olivomycin A (olivamide) on the functioning of de novo DNA methyltransferase Dnmt3a (enzyme that carries out methylation of cytosine residues in the DNA CG-sites in eukaryotic cells) using an in vitro system consisting of the murine Dnmt3a catalytic domain and a 30-mer DNA duplex containing four consecutive GC pairs. We have shown that olivomycin A and olivamide inhibit Dnmt3a with IC 50 of 6 ± 1 and 7.1 ± 0.7 μM, respectively. Neither olivomycin A nor olivamide interfered with the formation of the specific enzyme–substrate complex; however, olivomycin A prevented formation of the covalent DNA–Dnmt3a intermediate that is necessary for the methylation reaction to proceed. The inhibitory effects of olivomycin A and olivamide can be explained by the disruption of the enzyme catalytic loop movement through the DNA minor groove (the reaction stage that precedes the covalent bond formation between DNA and the enzyme). The results of this work indicate the epigenetic contribution to the antitumor effect of aureolic acid group antibiotics.
ISSN:0006-2979
1608-3040
DOI:10.1134/S0006297919010085