Your search keyword '"Savelieva EI"' showing total 8 results

1. The limitations and capabilities of wipe samples analysis in control of contamination of facilities with highly toxic organic compounds

Author

Shachneva, MD, primary, Leninskii, MA, additional, and Savelieva, EI, additional

Published

2021

2. Structure-Dependent Mechanism of Organophosphate Release from Albumin and Butyrylcholinesterase Adducts When Exposed to Fluoride Ion: A Comprehensive In Silico Study.

Author

Belinskaia DA, Koryagina NL, Goncharov NV, and Savelieva EI

Subjects

Humans, Fluorides, Computer Simulation, Butyrylcholinesterase chemistry, Organophosphates chemistry, Organophosphates toxicity, Pesticides chemistry, Pesticides toxicity, Serum Albumin, Human chemistry, Environmental Exposure

Abstract

The most favorable targets for retrospectively determining human exposure to organophosphorus pesticides, insecticides, retardants, and other industrial organophosphates (OPs) are adducts of OPs with blood plasma butyrylcholinesterase (BChE) and human serum albumin (HSA). One of the methods for determining OP exposure is the reactivation of modified BChE using a concentrated solution of KF in an acidic medium. It is known that under the action of fluoride ion, OPs or their fluoroanhydrides can be released not only from BChE adducts but also from the adducts with albumin; however, the contribution of albumin to the total pool of released OPs after plasma treatment with KF has not yet been studied. The efficiency of OP release can be affected by many factors associated with the experimental technique, but first, the structure of the adduct must be taken into account. We report a comparative analysis of the structure and conformation of organophosphorus adducts on HSA and BChE using molecular modeling methods and the mechanism of OP release after fluoride ion exposure. The conformational analysis of the organophosphorus adducts on HSA and BChE was performed, and the interaction of fluoride ions with modified proteins was studied by molecular dynamics simulation. The geometric and energy characteristics of the studied adducts and their complexes with fluoride ion were calculated using molecular mechanics and semiempirical approaches. The structural features of modified HSA and BChE that can affect the efficiency of OP release after fluoride ion exposure were revealed. Using the proposed approach, the expediency of using KF for establishing exposure to different OPs, depending on their structure, can be assessed.

Published

2023

3. Untargeted and targeted analysis of sarin poisoning biomarkers in rat urine by liquid chromatography and tandem mass spectrometry.

Author

Vokuev MF, Baygildiev ТМ, Plyushchenko IV, Ikhalaynen YA, Ogorodnikov RL, Solontsov IK, Braun АV, Savelieva EI, Rуbalchenko IV, and Rodin IA

Subjects

Animals, Biomarkers urine, Chemical Warfare Agents standards, Limit of Detection, Male, Metabolomics methods, Rats, Reference Standards, Reproducibility of Results, Sarin standards, Chemical Warfare Agents analysis, Chemical Warfare Agents poisoning, Chromatography, Liquid methods, Sarin poisoning, Sarin urine, Tandem Mass Spectrometry methods

Abstract

Chemical warfare agents continue to pose a real threat to humanity, despite their prohibition under the Chemical Weapons Convention. Sarin is one of the most toxic and lethal representatives of nerve agents. The methodology for the targeted analysis of known sarin metabolites has reached great heights, but little attention has been paid to the untargeted analysis of biological samples of victims exposed to this deadly poisonous substance. At present, the development of computational and statistical methods of analysis offers great opportunities for finding new metabolites or understanding the mechanisms of action or effect of toxic substances on the organism. This study presents the targeted LC-MS/MS determination of methylphosphonic acid and isopropyl methylphosphonic acid in the urine of rats exposed to a non-lethal dose of sarin, as well as the untarget urine analysis by LC-HRMS. Targeted analysis of polar acidic sarin metabolites was performed on a mixed-mode reversed-phase anion-exchange column, and untargeted analysis on a conventional reversed-phase C18 column. Isopropyl methylphosphonic acid was detected and quantified within 5 days after subcutaneous injection of sarin at a dose of 1/4 LD 50 . A combination of generalized additive mixed models and dose-response analysis with database searches using accurate mass of precursor ions and corresponding MS/MS spectra enabled us to propose new six potential biomarkers of biological response to exposure. The results confirm the well-known fact that sarin poisoning has a significant impact on the victims' metabolome, with inhibition of acetylcholinesterase being just the first step and trigger of the complex toxicodynamic response., (© 2021. Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

4. Investigation of Bemethyl Biotransformation Pathways by Combination of LC-MS/HRMS and In Silico Methods.

Author

Belinskaia DA, Savelieva EI, Karakashev GV, Orlova OI, Leninskii MA, Khlebnikova NS, Shestakova NN, and Kiskina AR

Subjects

Animals, Biotransformation, Chromatography, Liquid, Computer Simulation, Mass Spectrometry, Molecular Docking Simulation, Rats, Benzimidazoles urine

Abstract

Bemethyl is an actoprotector, an antihypoxant, and a moderate psychostimulant. Even though the therapeutic effectiveness of bemethyl is well documented, there is a gap in knowledge regarding its metabolic products and their quantitative and qualitative characteristics. Since 2018, bemethyl is included to the Monitoring Program of the World Anti-Doping Agency, which highlights the challenge of identifying its urinary metabolites. The objective of the study was to investigate the biotransformation pathways of bemethyl using a combination of liquid chromatography-high-resolution mass spectrometry and in silico studies. Metabolites were analyzed in a 24 h rat urine collected after oral administration of bemethyl at a single dose of 330 mg/kg. The urine samples were prepared for analysis by a procedure developed in the present work and analyzed by high performance liquid chromatography-tandem mass spectrometry. For the first time, nine metabolites of bemethyl with six molecular formulas were identified in rat urine. The most abundant metabolite was a benzimidazole-acetylcysteine conjugate; this biotransformation pathway is associated with the detoxification of xenobiotics. The BioTransformer and GLORY computational tools were used to predict bemethyl metabolites in silico. The molecular docking of bemethyl and its derivatives to the binding site of glutathione S-transferase has revealed the mechanism of bemethyl conjugation with glutathione. The findings will help to understand the pharmacokinetics and pharmacodynamics of actoprotectors and to improve antihypoxant and adaptogenic therapy.

Published

2021

5. Diversity of Physiological and Biochemical Characters of Microdochium Fungi.

Author

Gavrilova OP, Orina AS, Kessenikh ED, Gustyleva LK, Savelieva EI, Gogina NN, and Gagkaeva TY

Subjects

Ascomycota metabolism, Ascomycota pathogenicity, Chromatography, High Pressure Liquid methods, Mycotoxins metabolism, Plant Diseases microbiology, Tandem Mass Spectrometry methods, Volatile Organic Compounds metabolism, Ascomycota physiology

Abstract

The biological characterization of Microdochium majus, M. nivale, and M. seminicola strains with wide geographical origins showed the diversity of their pathogenic properties and metabolite compounds, allowing them to exist in their habitats. Significant differences in the ability of Microdochium fungi to cause lesions on wheat and oat leaves were found. The intensity of symptoms depended on the species and substrate origin of the strains. On average M. seminicola strains were able to cause less leaf necrosis than M. majus and M. nivale. The volatile organic compound (VOC) profile of Microdochium fungi included 29 putative fungal metabolites. The spectrum of the identified VOCs in M. seminicola strains was much richer than that in M. majus and M. nivale strains. In addition, the strains of M. seminicola emitted at least six sesquiterpenes. Mycotoxin analysis by HPLC/MS/MS revealed that the analyzed Microdochium strains did not produce any toxic metabolites typically produced by filamentous fungi., (© 2020 Wiley-VHCA AG, Zurich, Switzerland.)

Published

2020

6. Study of the Vapor Phase Over Fusarium Fungi Cultured on Various Substrates.

Author

Savelieva EI, Gustyleva LK, Kessenikh ED, Khlebnikova NS, Leffingwell J, Gavrilova OP, and Gagkaeva TY

Subjects

Agar metabolism, Gas Chromatography-Mass Spectrometry, Gases chemistry, Gases metabolism, Seeds metabolism, Solanum tuberosum chemistry, Solid Phase Microextraction, Sucrose metabolism, Triticum, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism, Volatilization, Fusarium growth & development, Fusarium metabolism, Gases analysis, Volatile Organic Compounds analysis

Abstract

The compositions of volatile organic compounds (VOCs) emitted by Fusarium fungi (F. langsethiae, F. sibiricum, F. poae, and F. sporotrichioides) grown on two nutritive substrates: potato sucrose agar (PSA) and autoclaved wheat kernels (WK) were investigated. The culturing of fungi and study of their VOC emissions were performed in chromatographic vials at room temperature (23 - 24 °C) and the VOCs were sampled by a solid-phase microextraction on a 85 μm carboxen/polydimethylsiloxane fiber. GC/MS was performed using a 60-m HP-5 capillary column. Components of the VOC mixture were identified by electron impact mass spectra and chromatographic retention indices (RIs). The most abundant components of the VOC mixture emitted by Fusarium fungi are EtOH, AcOH, (i) BuOH, 3-methylbutan-1-ol, 2-methylbutan-1-ol, ethyl 3-methylbutanoate, terpenes with M 136, sesquiterpenes with M 204 (a total of about 25), and trichodiene. It was found that the strains grown on PSA emit a wider spectrum and larger amount of VOCs compared with those grown on wheat kernels. F. langsethiae strain is the most active VOC producer on both substrates. The use of SPME and GC/MS also offers the potential for differentiation of fungal species and strains., (© 2016 Wiley-VHCA AG, Zürich.)

Published

2016

7. Microplate spectroscopic methods for determination of the organophosphate soman.

Author

Prokofieva DS, Voitenko NG, Gustyleva LK, Babakov VN, Savelieva EI, Jenkins RO, and Goncharov NV

Subjects

Chemical Warfare Agents analysis, Cholinesterase Inhibitors analysis, Soman analysis, Chemical Warfare Agents chemistry, Cholinesterase Inhibitors chemistry, Environmental Monitoring methods, Soman chemistry, Spectrum Analysis methods

Abstract

Two microplate spectroscopic methods for determination of organophosphates, based on inhibition of acetylcholinesterase activity, have been elaborated and evaluated for determination of the chemical weapon agent soman. The principal difference between the methods is that one measures reaction substrate concentration (elaborated from Hestrin), while the other measures reaction product (elaborated from Ellman). The linear ranges of the two methods were found to be similar. Although the limit of quantification was lower for the Ellman method (110 pM), the sensitivity coefficient was in favor of the Hestrin method (1.55-fold higher). The effects of the main soman hydrolysis products were consistent for the two methods: both methylphosphonic acid and pinacolyl methylphosphonic acid did not inhibit acetylcholinesterase activity. The main components of decontaminating solutions showed differential effects: while monoethanolamine had no influence upon results obtained by either method, hydrogen peroxide interfered with the Ellman method at far lower concentrations than with the Hestrin method. In practical applications involving samples containing hydrogen peroxide, the method based on Hestrin should be regarded as much more specific for OP determination than the Ellman method.

Published

2010

8. Determination of fluoroacetic acid in water and biological samples by GC-FID and GC-MS in combination with solid-phase microextraction.

Author

Koryagina NL, Savelieva EI, Khlebnikova NS, Goncharov NV, Jenkins RO, and Radilov AS

Subjects

Animals, Brain metabolism, Chromatography, Gas methods, Flame Ionization methods, Fluoroacetates administration & dosage, Gas Chromatography-Mass Spectrometry instrumentation, Heart, Kidney chemistry, Kidney metabolism, Liver chemistry, Liver metabolism, Plasma chemistry, Rabbits, Rats, Rats, Wistar, Reproducibility of Results, Sensitivity and Specificity, Solid Phase Microextraction instrumentation, Tissue Distribution, Water chemistry, Fluoroacetates analysis, Gas Chromatography-Mass Spectrometry methods, Solid Phase Microextraction methods

Abstract

A novel procedure has been developed for determination of fluoroacetic acid (FAA) in water and biological samples. It involves ethylation of FAA with ethanol in the presence of sulfuric acid, solid-phase microextraction of the ethyl fluoroacetate formed, and subsequent analysis by GC-FID or by GC-MS in selected-ion-monitoring mode. The detection limits for FAA in water, blood plasma, and organ homogenates are 0.001 microg mL(-1), 0.01 microg mL(-1), and 0.01 microg g(-1), respectively. The determination error at concentrations close to the detection limit was less than 50%. For analysis of biological samples, the approach has the advantages of overcoming the matrix effect and protecting the GC and GC-MS systems from contamination. Application of the approach to determination of FAA in blood plasma and organ tissues of animals poisoned with sodium fluoroacetate reveals substantial differences between the dynamics of FAA accumulation and clearance in rabbits and rats.

Published

2006