Laboratory Of Bioelectrochemistry

Victoria V. Shumyantseva Head of Lab
D.Sc., Professor

CONTACTS

Alexey V. KuzikovPh.D.	Tatiana V. Bulko	Lubov E. Agafonova Ph.D.
Rami A. Masamrekh Ph.D.	Tatiana A. Filippova	Polina I. Koroleva
Veronika V. Pronina	Alina V. Berezhnova

RESEARCH

Electrochemistry of biological objects (proteins, DNA, drugs, amino acids)
Development of electrochemical methods for the analysis of bioaffinity interactions
Analysis of enzyme-substrate interactions using electrochemical methods

DIRECTION OF INVESTIGATION

Electrochemistry of biological objects (proteins, DNA, medicines, amino acids)
Development of electrochemical methods for the analysis of bioaffinity interactions
Analysis of enzyme-substrate interactions using electrochemical methods
Electroanalysis of enzymes (cytochromes P450) for assessment of genetic polymorphisms and specifics of pharmacokinetics
Electrochemical analysis of transfection
Analysis of DNA degradation during apoptosis and action of restrictases and nucleases
Electrochemical analysis of the catalytic activity of clinically important enzymes, such as cytochromes P450, asparaginase, proteases (trypsin, the main coronaviral protease M^pro), β-lactamases, restrictases, nucleases

Electrochemical methods for biosensor analysis and investigation of the mechanism of biochemical processes

Two-electrode setup for the estimation of CYP3A4 enzymatic activity

SELECTED PUBLICATIONS

Shumyantseva V.V., Koroleva P.I., Bulko T.V., Shkel T.V., Gilep A.A., Veselovsky A.V. (2023) Approaches for increasing the electrocatalitic efficiency of cytochrome P450 3A4, Bioelectrochemistry (Amsterdam, Netherlands), 149, 108277. DOI:10.1016/j.bioelechem.2022.108277

Shumyantseva V.V., Bulko T.V., Agafonova L.E., Pronina V.V., Kostryukova L.V. (2023) Comparative Analysis of the Interaction between the Antiviral Drug Umifenovir and Umifenovir Encapsulated in Phospholipids Micelles (Nanosome/Umifenovir) with dsDNA as a Model for Pharmacogenomic Analysis by Electrochemical Methods, Processes, 11(3), 922. DOI:10.3390/pr11030922

Pronina V.V., Kostryukova L.V., Bulko T.V., Shumyantseva V.V. (2023) Interaction of Doxorubicin Embedded into Phospholipid Nanoparticles and Targeted Peptide-Modiﬁed Phospholipid Nanoparticles with DNA, Molecules, 28(14), 5317. DOI:10.3390/molecules28145317

Agafonova L., Zhdanov D., Gladilina Yu., Kanashenko S., Shumyantseva V. (2022) A pilot study on an electrochemical approach for assessing transient DNA transfection in eukaryotic cells, Journal of Electroanalytical Chemistry, 920, 116635. DOI:10.1016/j.jelechem.2022.116635

Shumyantseva V.V., Koroleva P.I., Bulko T.V., Sergeev G.V., Usanov S.A. (2022) Predicting drug-drug interactions by electrochemically driven cytochrome P450 3A4 reactions, Drug Metabolism and Personalized Therapy, 37(3), 241-248. DOI:10.1515/dmpt-2021-0116

Agafonova L., Tikhonova E., Sanzhakov M., Kostryukova L., Shumyantseva V. (2022) Electrochemical Studies of the Interaction of Phospholipid Nanoparticles with dsDNA, Processes, 10(11), 2324. DOI:10.3390/pr10112324

Masamrekh R.A., Kuzikov A.V., Filippova T.A., Sherbakov K.A., Veselovsky A.V., Shumyantseva V.V. (2022) Interaction of Abiraterone and Its Pharmacologically Active Metabolite D4A with Cytochrome P450 2C9 (CYP2C9), Biochemistry (Moscow) Supplement Series B: Biomedical Chemistry, 16(4), 328-339. DOI:10.1134/S1990750822040059

Shumyantseva V.V., Kuzikov A.V., Masamrekh R.A., Filippova T.A., Koroleva P.I., Agafonova L.E., Bulko T.V., Archakov A.I. (2022) Enzymology on an Electrode and in a Nanopore: Analysis Algorithms, Enzyme Kinetics, and Perspectives, BioNanoScience, 12, 1341-1355. DOI:10.1007/s12668-022-01037-2

Shumyantseva V.V., Bulko T.V., Kuzikov A.V., Masamrekh R.A., Pergushov D.V., Schacher F.H., Sigolaeva L.V. (2020) Electrochemical fingerprint of cytochrome c on a polymer/MWCNT nanocomposite electrode, Mendeleev Communications, 30(3), 299-301. DOI:10.1016/j.mencom.2020.05.012

Shumyantseva V.V., Makhova A.A., Shikh E.V., Bulko T.V., Kuzikov A.V., Masamrekh R.A., Shkel T., Usanov S., Gilep A., Archakov A.I. (2019) Bioelectrochemical Systems as Technologies for Studying Drug Interactions Related to Cytochrome P450, BioNanoScience, 9(1), 79-86. DOI:10.1007/s12668-018-0567-7

Shumyantseva V.V., Bulko T.V., Sigolaeva L.V., Kuzikov A.V., Pogodin P.V., Archakov A.I. (2018) Molecular imprinting coupled with electrochemical analysis for plasma samples classification in acute myocardial infarction diagnostic, Biosensors & Bioelectronics, 99, 216-222. DOI:10.1016/j.bios.2017.07.026

PATENTS

Archakov A.I., Lisitsa A.V., Ipatova O.M., Misharin A.Yu., Stulov S.V., Shishova D.K., Shumyantseva V.V., Kuzikov A.V., Veselovsky A.V. Derivatives of pregn-17 (20)-ene exhibiting antitumor activity. Patent № 2617698 (RU2015111223A). Registered in the State Register of Inventions of the Russian Federation on April 26th of 2017
Suprun E.V., Khmeleva S.A., Kiseleva Ya.Yu., Radko S.P., Archakov A.I., Shumyantseva V.V. Electrochemical method for amino acid substitutions and modifications analysis in amyloid-beta peptide. Patent № 2616706 (RU2616706C2). Registered in the State Register of Inventions of the Russian Federation on April 18th of 2017
Shumyantseva V.V., Bulko T.V., Kuzikov A.V., Suprun E.V., Sigolaeva L.V. Method of express determination of cardiomyoglobin in blood plasma using electrochemical sensor based on carbon nanotubes and molecular imprinted poly-o-phenylenediamine as bioaffinity reagent. Patent № 2633086. Registered in the State Register of Inventions of the Russian Federation on October 11th of 2017
Suprun E.V., Radko S.P., Mitkevich V.A., Makarov A.A., Archakov A.I., Shumyantseva V.V. Electrochemical method for detecting amino acid substitutions and identifying peptides. Patent № 26330078 (RU2633078C2). Registered in the State Register of Inventions of the Russian Federation on October 11th of 2017
Suprun E.V., Radko S.P., Khmeleva S.A., Kiseleva Ya.Yu., Archakov A.I., Shumyantseva V.V. Electrochemical method for rapid analysis of complex formation of amyloid-beta with metal ions. Patent №RU2585307. Registered in the State Register of Inventions of the Russian Federation April 1st of 2015
Shumyantseva V.V., Bulko T.V., Suprun E.V., Kuzikov A.V. Electrochemical biosensor for direct detection of myoglobin based on carbon nanotubes and a molecularly imprinted polymer based on o-phenylenediamine and a method for its preparation. Patent № RU2604688. Registered in the State Register of Inventions of the Russian Federation on November 18th of 2016

DISSERTATIONS PREPARED IN THE LABORATORY

Shumyantseva V.V. Semisynthetic flavocytochrome P450: electron transfer and catalysis. D.Sci.
Suprun E.V. Electrochemical biosensor systems for analysis of clinically important proteins and peptides. D.Sci.
Makhova A.A. Regulation of the activity of cytochrome P450 3A4 enzymes by vitamins and vitamin-like substances. D.Sci.
Rudakov Yu.O. Electrochemical reduction of cytochrome P450 2B4 using nanocomposite electrode materials: stoichiometry and thermodynamics. PhD
Shumkov A.A. Electrochemical analysis of cardiac markers in blood plasma. PhD
Kuzikov A.V. Electrochemical monitoring of the catalytic activity of cytochromes P450. PhD

GRADUATE THESES PREPARED IN THE LABORATORY

Valilulina S.G. «Modeling microsomal monooxygenase system using human serum albumin modified with the reactive riboflavin analog 7-α-bromacetyl-10-methylisoalloxazine». Moscow State Academy of Fine Chemical Technology. Department of Chemistry and Technology of Fine Organic Compounds.
Byakova O.E. «Modeling microsomal monooxygenase system based on cytochrome P450 2B4 containing riboflavin as an electron donor group». Pirogov Russian State Medical University. Faculty of Biomedicine, Department of Biochemistry.
Avdeenko Yu.L. «Study of the influence of hydrogen peroxide and cytochrome b5 on reactions catalyzed by semisynthetic flavocytochrome 2B4». Pirogov Russian State Medical University. Faculty of Biomedicine, Department of Biochemistry.
Marsova M.V. «The development of methods for enzyme electrode preparation based on cytochrome P450 2B4». Lomonosov Moscow State University. Faculty of Chemistry, Department of Natural Compound Chemistry.
Kurnyshova A.V. «The development of method for direct electrochemical immunoanalysis of myoglobin for earlier diagnostics of myocardial infarction». Moscow Engineering Physics Institute. Department №1.
Kozin M.S. «The development of methods for electrode modification for electroanalysis of nucleotides and oligo(poly)nucleotides». Pirogov Russian National Research Medical University. Faculty of Biomedicine, Department of Biochemistry.
Masamrekh R.A. «Electroanalysis of cytochrome P450 17A1 as a molecular target for potential antitumor drugs». Pirogov Russian National Research Medical University. Faculty of Biomedicine, Department of Biochemistry.

BACHELOR AND MASTER GRADUATE THESES PREPARED IN THE LABORATORY (MIREA — RUSSIAN TECHNOLOGICAL UNIVERSITY)

Korlenkov A.V. «Electrochemical approach for analysis of drugs». Bachelor’s degree, 2017
Kuzina E.V. «Electrochemical approach for analysis of ibuprofen». Bachelor’s degree, 2018
Dementeva A.A. «Determination of diclofenac in biological fluids by electrochemical methods». Bachelor’s degree, 2018
Antonova A.N. Determination of paracetamol in biological fluids by electrochemical methods». Bachelor’s degree, 2018
Koroleva P.I. «Electroanalytical properties of cytochrome P450 3A4 and their application for analysis of drug-drug interactions». Master’s degree, 2018
Saveleva D.V. «Optimization of the electrochemical registration of cytochrome c on electrodes modified with carbon nanotubes». Bachelor’s degree, 2020
Pronina V.V. «Nanocomposite materials as electrode modifiers for electrochemical analysis of biological systems». Master’s degree, 2022
Agapitova (Serdyukova) A.S. «Optimization of the parameters for registration of nucleic acids on graphite electrodes». Bachelor’s degree, 2023