Your search keyword '"Eliseeva OV"' showing total 3 results

1. Controlling the Quality of Nanodrugs According to Their New Property-Radiothermal Emission.

Author

Petrov GV, Galkina DA, Koldina AM, Grebennikova TV, Eliseeva OV, Chernoryzh YY, Lebedeva VV, and Syroeshkin AV

Abstract

Previous studies have shown that complexly shaped nanoparticles (NPs) have their intrinsic radiothermal emission in the millimeter range. This article presents a method for controlling the quality of nanodrugs-immunobiological preparations (IBPs)-based on the detection of their intrinsic radiothermal emissions. The emissivity of interferon (IFN) medicals, determined without opening the primary package, is as follows (µW/m 2 ): IFN-α2b-80 ± 9 (10 5 IU per package), IFN-β1a-40 ± 5 (24 × 10 6 IU per package), IFN-γ-30 ± 4 (10 5 IU per package). The emissivity of virus-like particles (VLP), determined using vaccines Gam-VLP-multivac (120 μg) in an injection bottle (crimp cap vials), was as follows: 12 ± 1 µW/m 2 , Gam-VLP-rota vaccines-9 ± 1 µW/m 2 . This study shows the reproducibility of emissivity over the course of a year, subject to the storage conditions of the immunobiological products. It has been shown that accelerated aging and a longer shelf life are accompanied by the coagulation of active NPs, and lead to a manyfold drop in emissivity. The dependence of radiothermal emission on temperature has a complex, non-monotonic nature. The emission intensity depends on the form of dosage, but remains within the order of magnitude for IFN-α2b for intranasal aqueous solution, ointments, and suppositories. The possibility of the remote quantitative control of the first phases of the immune response (increased synthesis of IFNs) to the intranasal administration of VLP vaccines has been demonstrated in experimental animals.

Published

2024

2. Nanodispersions of Polyelectrolytes Based on Humic Substances: Isolation, Physico-Chemical Characterization and Evaluation of Biological Activity.

Author

Uspenskaya EV, Syroeshkin AV, Pleteneva TV, Kazimova IV, Grebennikova TV, Fedyakina IT, Lebedeva VV, Latyshev OE, Eliseeva OV, Larichev VF, Garaev TM, Maximova TV, Morozova MA, and Hanh PM

Abstract

Natural polyelectrolytes, including in the form of complexes with colloidal particles, are increasingly used in pharmacy due to the possibility of regulated attachment of medicinal substances and their targeted delivery to the target organ. However, the formation, stability, and molecular-mass characteristics of polyelectrolyte nanodispersions (ND) vary depending on the nature and composition of the medium of their origin. This is due to the lack of standardized approaches to quality control and regulatory documentation for most natural ND. In this paper, we first introduced the isolation, followed by investigations into their physico-chemical properties and bioactivity. Using the dried droplet method, we were able to detect the "coffee ring effect". Fractographic studies of the surface structure of EHA and FA dried samples using SEM showed its heterogeneity and the presence of submicron particles encapsulated in the internal molecular cavities of polyelectrolyte. FTIR spectroscopy revealed the ND chemical structure of benzo-α-pyron and benzo-γ-pyron, consisting of nanoparticles and a branched frame part. The main elements detected by X-ray fluorescence in humic substance extract and fulvic acid include Si, P, S, K, Ca, Mn, Fe, Cu, Zn, whereas Fe is in high concentrations. The UV-spectra and fluorescent radiation demonstrated the possibility of studying the effect of the fulvate chromone structure on its optical properties. It is shown that dilution of the initial solutions of polyelectrolytes 1:10 contributes to the detection of smaller nanoparticles and an increase in the absolute value of the negative ζ-potential as a factor of ND stability. A study of the EHS effect on the SARS-CoV-2 virus infectious titer in the Vero E6 cell showed the effective against virus both in the virucidal scheme (the SI is 11.90-22.43) and treatment/prevention scheme (the SI is 34.85-57.33). We assume that polyelectrolyte ND prevent the binding of the coronavirus spike glycoprotein to the receptor. Taking into account the results obtained, we expect that the developed approach can become unified for the standardization of the ND natural polyelectrolytes complex, which has great prospects for use in pharmacy and medicine as a drug with antiviral activity.

Published

2021

3. Prokaryotic Expression, Purification and Immunogenicity in Rabbits of the Small Antigen of Hepatitis Delta Virus.

Author

Tunitskaya VL, Eliseeva OV, Valuev-Elliston VT, Tyurina DA, Zakirova NF, Khomich OA, Kalis M, Latyshev OE, Starodubova ES, Ivanova ON, Kochetkov SN, Isaguliants MG, and Ivanov AV

Subjects

Animals, Antibodies, Viral blood, Cell Line, Cloning, Molecular, Enzyme-Linked Immunosorbent Assay, Escherichia coli genetics, Escherichia coli metabolism, Female, Fluorescent Antibody Technique, Hepatitis Delta Virus genetics, Hepatitis delta Antigens biosynthesis, Humans, RNA, Viral genetics, Rabbits, Recombinant Proteins genetics, Recombinant Proteins metabolism, Antibodies, Viral biosynthesis, Antibodies, Viral immunology, Hepatitis Delta Virus immunology, Hepatitis delta Antigens immunology

Abstract

Hepatitis delta virus (HDV) is a viroid-like blood-borne human pathogen that accompanies hepatitis B virus infection in 5% patients. HDV has been studied for four decades; however, the knowledge on its life-cycle and pathogenesis is still sparse. The studies are hampered by the absence of the commercially-available HDV-specific antibodies. Here, we describe a set of reproducible methods for the expression in E. coli of His-tagged small antigen of HDV (S-HDAg), its purification, and production of polyclonal anti-S-HDAg antibodies in rabbits. S-HDAg was cloned into a commercial vector guiding expression of the recombinant proteins with the C-terminal His-tag. We optimized S-HDAg protein purification procedure circumventing a low affinity of the His-tagged S-HDAg to the Ni-nitrilotriacetyl agarose (Ni-NTA-agarose) resin. Optimization allowed us to obtain S-HDAg with >90% purity. S-HDAg was used to immunize Shinchilla grey rabbits which received 80 μg of S-HDAg in two subcutaneous primes in the complete, followed by four 40 μg boosts in incomplete Freunds adjuvant. Rabbits were bled two weeks post each boost. Antibody titers determined by indirect ELISA exceeded 10⁷. Anti-S-HDAg antibodies detected the antigen on Western blots in the amounts of up-to 100 pg. They were also successfully used to characterize the expression of S-HDAg in the eukaryotic cells by immunofluorescent staining/confocal microscopy., Competing Interests: The authors declare no conflict of interest.

Published

2016