Your search keyword '"Solovieva, Anastasiya"' showing total 38 results

1. Luminescent silica mesoparticles for protein transduction

Author

Vorotnikov, Yuri A., Pozmogova, Tatiana N., Solovieva, Anastasiya O., Miroshnichenko, Svetlana M., Vorontsova, Elena V., Shestopalova, Lidiya V., Mironov, Yuri V., Shestopalov, Michael A., and Efremova, Olga A.

Published

2019

2. Polyelectrolyte-coated ultra-small nanoparticles with Tb(III)-centered luminescence as cell labels with unusual charge effect on their cell internalization

Author

Zairov, Rustem R., Solovieva, Anastasiya O., Shamsutdinova, Nataliya A., Podyachev, Sergey N., Shestopalov, Michael A., Pozmogova, Tatiana N., Miroshnichenko, Svetlana M., Mustafina, Asiya R., and Karasik, Andrey A.

Published

2019

3. Strontium and Copper Co-Doped Multifunctional Calcium Phosphates: Biomimetic and Antibacterial Materials for Bone Implants.

Author

Lebedev, Vladimir N., Kharovskaya, Mariya I., Lazoryak, Bogdan I., Solovieva, Anastasiya O., Fadeeva, Inna V., Amirov, Abdulkarim A., Koliushenkov, Maksim A., Orudzhev, Farid F., Baryshnikova, Oksana V., Yankova, Viktoriya G., Rau, Julietta V., and Deyneko, Dina V.

Subjects

CALCIUM phosphate, BIOMIMETIC materials, ANTIBACTERIAL agents, MESENCHYMAL stem cells, DOPING agents (Chemistry), BONE substitutes, MUSCARINIC receptors

Abstract

β-tricalcium phosphate (β-TCP) is a promising material in regenerative traumatology for the creation of bone implants. Previously, it was established that doping the structure with certain cations can reduce the growth of bacterial activity. Recently, much attention has been paid to co-doped β-TCP, that is explained by their ability, on the one hand, to reduce cytotoxicity for cells of the human organism, on the other hand, to achieve a successful antibacterial effect. Sr, Cu-co-doped solid solutions of the composition Ca9.5–xSrxCu(PO4)7 was obtained by the method of solid-phase reactions. The Rietveld method of structural refinement revealed the presence of Sr2+ ions in four crystal sites: M1, M2, M3, and M4. The M5 site is completely occupied by Cu2+. Isomorphic substitution of Ca2+ → (Sr2+and Cu2+) expands the concentration limits of the existence of the solid solution with the β-TCP structure. No additional phases were formed up to x = 4.5 in Ca9.5–xSrxCu(PO4)7. Biocompatibility tests were performed on cell lines of human bone marrow mesenchymal stromal cells (hMSC), human fibroblasts (MRC-5) and osteoblasts (U-2OS). It was demonstrated that cytotoxicity exhibited a concentration dependence, along with an increase in osteogenesis and cell proliferation. Ca9.5–xSrxCu(PO4)7 powders showed significant inhibitory activity against pathogenic strains Escherichia coli and Staphylococcus aureus. Piezoelectric properties of Ca9.5–xSrxCu(PO4)7 were investigated. Possible ways to achieve high piezoelectric response are discussed. The combination of bioactive properties of Ca9.5–xSrxCu(PO4)7 renders them multifunctional materials suitable for bone substitutes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Structure optimization for enhanced luminescent and paramagnetic properties of hydrophilic nanomaterial based on heterometallic Gd-Re complexes

Author

Elistratova, Julia, Akhmadeev, Bulat, Gubaidullin, Aidar, Shestopalov, Michael A., Solovieva, Anastasiya, Brylev, Konstantin, Kholin, Kirill, Nizameev, Irek, Ismaev, Ildus, Kadirov, Marsil, and Mustafina, Asiya

Published

2018

5. Silica nanoparticles with Tb(III)-centered luminescence decorated by Ag0 as efficient cellular contrast agent with anticancer effect

Author

Fedorenko, Svetlana V., Grechkina, Svetlana L., Mukhametshina, Alsu R., Solovieva, Anastasiya O., Pozmogova, Tatiana N., Miroshnichenko, Svetlana M., Alekseev, Alexander Y., Shestopalov, Michael A., Kholin, Kirill V., Nizameev, Irek R., and Mustafina, Asiya R.

Published

2018

6. Cellular imaging by green luminescence of Tb(III)-doped aminomodified silica nanoparticles

Author

Fedorenko, Svetlana V., Mustafina, Asiya R., Mukhametshina, Alsu R., Jilkin, Michail E., Mukhametzyanov, Timur A., Solovieva, Anastasiya O., Pozmogova, Tatiana N., Shestopalova, Lidiya V., Shestopalov, Michael A., Kholin, Kirill V., Osin, Yury N., and Sinyashin, Oleg G.

Published

2017

7. Comprehensive study of hexarhenium cluster complex Na4[{Re6Te8}(CN)6] – In terms of a new promising luminescent and X-ray contrast agent

Author

Krasilnikova, Anna A., Solovieva, Anastasiya O., Ivanov, Anton A., Trifonova, Kristina E., Pozmogova, Tatiana N., Tsygankova, Alphiya R., Smolentsev, Anton I., Kretov, Evgeniy I., Sergeevichev, David S., Shestopalov, Michael A., Mironov, Yuri V., Shestopalov, Alexander M., Poveshchenko, Alexander F., and Shestopalova, Lidiya V.

Published

2017

8. Nanosized mesoporous metal–organic framework MIL-101 as a nanocarrier for photoactive hexamolybdenum cluster compounds

Author

Cheplakova, Anastasia M., Solovieva, Anastasiya O., Pozmogova, Tatiana N., Vorotnikov, Yuri A., Brylev, Konstantin A., Vorotnikova, Natalya A., Vorontsova, Elena V., Mironov, Yuri V., Poveshchenko, Alexander F., Kovalenko, Konstantin A., and Shestopalov, Michael A.

Published

2017

9. Polycaprolactone Nanofibers Functionalized by Fibronectin/Gentamicin and Implanted Silver for Enhanced Antibacterial Properties, Cell Adhesion, and Proliferation.

Author

Permyakova, Elizaveta S., Solovieva, Anastasiya O., Sitnikova, Natalia, Kiryukhantsev-Korneev, Philipp V., Kutzhanov, Magzhan K., Sheveyko, Alexander N., Ignatov, Sergey G., Slukin, Pavel V., Shtansky, Dmitry V., and Manakhov, Anton M.

Subjects

*POLYCAPROLACTONE, *FIBRONECTINS, *CELL adhesion, *NANOFIBERS, *GENTAMICIN, *X-ray photoelectron spectroscopy, *ION implantation

Abstract

Novel nanomaterials used for wound healing should have many beneficial properties, including high biological and antibacterial activity. Immobilization of proteins can stimulate cell migration and viability, and implanted Ag ions provide an antimicrobial effect. However, the ion implantation method, often used to introduce a bactericidal element into the surface, can lead to the degradation of vital proteins. To analyze the surface structure of nanofibers coated with a layer of plasma COOH polymer, fibronectin/gentamicin, and implanted with Ag ions, a new X-ray photoelectron spectroscopy (XPS) fitting method is used for the first time, allowing for a quantitative assessment of surface biomolecules. The results demonstrated noticeable changes in the composition of fibronectin- and gentamicin-modified nanofibers upon the introduction of Ag ions. Approximately 60% of the surface chemistry has changed, mainly due to an increase in hydrocarbon content and the introduction of up to 0.3 at.% Ag. Despite the significant degradation of fibronectin molecules, the biological activity of Ag-implanted nanofibers remained high, which is explained by the positive effect of Ag ions inducing the generation of reactive oxygen species. The PCL nanofibers with immobilized gentamicin and implanted silver ions exhibited very significant antipathogen activity to a wide range of Gram-positive and Gram-negative strains. Thus, the results of this work not only make a significant contribution to the development of new hybrid fiber materials for wound dressings but also demonstrate the capabilities of a new XPS fitting methodology for quantitative analysis of surface-related proteins and antibiotics. [ABSTRACT FROM AUTHOR]

Published

2024

10. Self-Sanitizing Polycaprolactone Electrospun Nanofiber Membrane with Ag Nanoparticles.

Author

Permyakova, Elizaveta S., Manakhov, Anton, Kiryukhantsev-Korneev, Philipp V., Konopatsky, Anton S., Makarets, Yulia A., Kotyakova, Kristina Yu., Filippovich, Svetlana Yu., Ignatov, Sergey G., Solovieva, Anastasiya O., and Shtansky, Dmitry V.

Subjects

POLYCAPROLACTONE, NANOPARTICLES, WATER immersion, SILVER nanoparticles, ELECTROSTATIC interaction, WATER purification

Abstract

The objective of this research was to develop an environment-friendly and scalable method for the production of self-sanitizing electrospun nanofibers. This was achieved by immobilizing silver nanoparticles (Ag NPs) onto plasma-treated surfaces of biodegradable polycaprolactone (PCL) nanofibers. The plasma deposited polymer layer containing carboxyl groups played a critical role in providing a uniform distribution of Ag NPs on the nanofiber surface. Ag ions were absorbed by electrostatic interaction and then reduced under the action of UV-light. The concentration and release of Ag ions were analyzed using the EDXS/XPS and ICP AES methods, respectively. Although high levels of Ag ions were detected after 3 h of immersion in water, the material retained a sufficient amount of silver nanoparticles on the surface (~2.3 vs. 3.5 at.% as determined by XPS), and the release rate subsequently decreased over the next 69 h. The antipathogenic properties of PCL-Ag were tested against gram-negative and gram-positive bacteria, fungi, and biofilm formation. The results showed that the PCL-Ag nanofibers exhibit significant antimicrobial activity against a wide range of microorganisms, including those that cause human infections. The incorporation of Ag NPs into PCL nanofibers resulted in a self-sanitizing material that can be used in variety of applications, including wound dressings, water treatment, and air filtration. The development of a simple, scalable, and environmentally friendly method for the fabrication of these nanofibers is essential to ensure their widespread use in various industries. The ability to control the concentration and release rate of Ag ions in the PCL nanofibers will be critical to optimize their efficacy while minimizing their potential toxicity to human cells and the environment. [ABSTRACT FROM AUTHOR]

Published

2023

11. PRP of T2DM Patient Immobilized on PCL Nanofibers Stimulate Endothelial Cells Proliferation.

Author

Solovieva, Anastasiya O., Sitnikova, Natalia A., Nimaev, Vadim V., Koroleva, Elena A., and Manakhov, Anton M.

Subjects

*NANOFIBERS, *ENDOTHELIAL cells, *TYPE 2 diabetes, *DIABETIC foot, *EPIDERMAL growth factor, *CELL proliferation

Abstract

Diabetic foot ulcers (DFU) are a common complication of Type 2 Diabetes Mellitus (T2DM). Development of bioactive wound healing covers is an important task in medicine. The use of autologous platelet-rich plasma (PRP) consisting of growth factors, cytokines and components of extracellular matrix is a perspective approach for DFU treatment, but we previously found that some T2DM PRP samples have a toxic effect on mesenchymal stem cells (MSCs) in vitro. Here, we covalently immobilized T2DM PRP proteins on polycaprolactone (PCL) nanofibers, and the growth of endothelial cells on the PCL-COOH-PRP was investigated. Additionally, the level of NO reflecting the cytotoxic effects of PRP, angiogenin, and VEGF levels were measured in T2DM PRP samples. The results showed that the application of PCL-COOH-PRP nanofibers allows to remove the cytotoxicity of T2DM PRP and to improve endothelial cell adhesion and proliferative activity. We showed that the origin of T2DM PRP (the level of PRP toxicity or presence/absence of DFU) does not influence the efficiency of cell growth on PCL-COOH-PRP, and on the level of angiogenin, vascular epidermal growth factor (VEGF) in PRP itself. [ABSTRACT FROM AUTHOR]

Published

2023

12. Immobilization and Release of Platelet-Rich Plasma from Modified Nanofibers Studied by Advanced X-ray Photoelectron Spectroscopy Analyses.

Author

Manakhov, Anton M., Permyakova, Elizaveta S., Solovieva, Anastasiya O., Sitnikova, Natalya A., Kiryukhantsev-Korneev, Philipp V., Konopatsky, Anton S., and Shtansky, Dmitry V.

Subjects

PLATELET-rich plasma, X-ray photoelectron spectroscopy, NANOFIBERS, ELECTRIC discharges, GLOW discharges, PLASMA gases, POLYCAPROLACTONE

Abstract

Platelet-rich Plasma (PRP) is an ensemble of growth factors, extracellular matrix components, and proteoglycans that are naturally balanced in the human body. In this study, the immobilization and release of PRP component nanofiber surfaces modified by plasma treatment in a gas discharge have been investigated for the first time. The plasma-treated polycaprolactone (PCL) nanofibers were utilized as substrates for the immobilization of PRP, and the amount of PRP immobilized was assessed by fitting a specific X-ray Photoelectron Spectroscopy (XPS) curve to the elemental composition changes. The release of PRP was then revealed by measuring the XPS after soaking nanofibers containing immobilized PRP in buffers of varying pHs (4.8; 7.4; 8.1). Our investigations have proven that the immobilized PRP would continue to cover approximately fifty percent of the surface after eight days. [ABSTRACT FROM AUTHOR]

Published

2023

13. Genome-Wide SNP Analysis Reveals the Genetic Diversity and Population Structure of the Domestic Reindeer Population (Rangifer tarandus) Inhabiting the Indigenous Tofalar Lands of Southern Siberia.

Author

Kharzinova, Veronika Ruslanovna, Dotsev, Arsen Vladimirovich, Solovieva, Anastasiya Dmitrievna, Shimit, Larisa Delger-Oolovna, Kochkarev, Anton Pavlovich, Reyer, Henry, and Zinovieva, Natalia Anatolievna

Subjects

GENETIC variation, SINGLE nucleotide polymorphisms, REINDEER, INDIGENOUS peoples, PROBLEM solving

Abstract

Operating under the assumption that decline in population size increases the threat of loss of genetic diversity, herein, our first aim was to monitor and document the genetic diversity and population structure of the endemic Tuva–Tofalar reindeer, the number of which has seen a dramatic decrease. Second, we were interested in understanding of Tuva reindeer genetic relationship with four officially recognized reindeer breeds, whose wild populations inhabit the Far North of Russia, as well as with the domestic reindeer making up the Mongolian population. Our results, based on the genome-wide SNP genotypes generated by the BovineHD BeadChip, revealed a low level of genetic variability of Tuva population in terms of the values of both allelic and genetic diversity. The ADMIXTURE analysis, the PCA plot, and the Neighbor Net network results, showed that Tuva population shared genetic background with reindeer inhabiting Mongolia, an implication of their common origin. Moreover, all statistic approaches used in our study showed a distinctive shared genetic structure revealed in independent clusters found in the composition of: an admixed cluster of Tuvan and Mongolian populations, a cluster of domestic reindeer breeds, and a cluster of the wild populations—all of which indirectly points to the possibility of the independent origins (with regard to the domestication) of the reindeer groups studied herein. We believe that our findings will contribute to the formation of a rational basis for solving problems related to the conservation of domestic Tuva-Tofalar reindeer in order to increase the number of this substantial reindeer population which will contribute to the sustainable functioning of ecosystems and the lives and culture of indigenous peoples inhabiting the southern sections of Eastern Siberia. [ABSTRACT FROM AUTHOR]

Published

2022

14. Silver Ions Incorporation into Nanofibers for Enhanced hMSC Viability.

Author

Sitnikova, Natalya A., Solovieva, Anastasiya O., Permyakova, Elizaveta S., Sheveyko, Alexander N., Shtansky, Dmitry V., and Manakhov, Anton M.

Subjects

*SILVER ions, *CHRONIC wounds & injuries, *NANOFIBERS, *POISONS

Abstract

Antimicrobial properties of silver have been known for a long time, but there is also cytotoxicity of high concentrations of silver. Therefore, it is important to select the concentration and shape of silver depending on the goals. The ideal wound dressing should ensure that the wound remains optimally moist, protected from infections, has no toxic compounds, and stimulates regeneration. In the present work, we obtained a series of polycaprolactone-based nanomaterials fabricated by electrospinning and incorporated with silver ions (up to 0.6 at.%). By adjusting the magnetron current (0.3 A) and implanter voltage (5 kV), the deposition of TiO2 and Ag+ implantation into PCL/PEO nanofibers was optimized to achieve implantation of Ag+ without damaging the nanofibrous structure of the biodegradable nanofibers. The obtained results allow us to predict significant protection properties of the developed material not only from mechanical influence but also thanks to the antimicrobial effect due to silver ions, which is important for chronic wounds and injuries with a large area of damage and can activate host cells proliferation. [ABSTRACT FROM AUTHOR]

Published

2022

15. Plasma‐coated PCL scaffolds with immobilized platelet‐rich plasma enhance the wound healing in diabetics mice.

Author

Solovieva, Anastasiya O., Permyakova, Elizaveta S., Ershov, Konstantin I., Bakhareva, Ksenia I., Miroshnichenko, Svetlana M., Kiryukhantsev‐Korneev, Philipp V., Konopatsky, Anton S., Polčak, Josef, Shtansky, Dmitry V., and Manakhov, Anton M.

Subjects

*PLATELET-rich plasma, *WOUND healing, *PLASMA polymerization

Abstract

COOH plasma polymer layers deposited onto polycaprolactone (PCL) nanofibers by plasma polymerization of CO2 and C2H4 in the Ar atmosphere were obtained and tested for diabetic wound healing. Simply by changing the deposition time, very different morphologies of coated PCL nanofibers were achieved. In vivo tests revealed that by applying modified nanofibers for 10 days, wound healing accelerated by 32.1%. Compared to a controlled wound characterized by an acute inflammatory process, wounds covered with nanofibers with platelet‐rich plasma demonstrated complete healing with a high percentage of collagen fibers on Day 19. [ABSTRACT FROM AUTHOR]

Published

2022

16. Adhesion and Proliferation of Mesenchymal Stem Cells on Plasma-Coated Biodegradable Nanofibers.

Author

Manakhov, Anton M., Solovieva, Anastasiya O., Permyakova, Elizaveta S., Sitnikova, Natalya A., Klyushova, Lyubov S., Kiryukhantsev-Korneev, Philipp V., Konopatsky, Anton S., and Shtansky, Dmitry V.

Subjects

CELL proliferation, NANOFIBERS, CELL survival, PLASMA polymerization, CELL adhesion, BIODEGRADABLE nanoparticles

Abstract

Various biomedical applications of biodegradable nanofibers are a hot topic, as evidenced by the ever-increasing number of publications in this field. However, as-prepared nanofibers suffer from poor cell adhesion, so their surface is often modified. In this work, active polymeric surface layers with different densities of COOH groups from 5.1 to 14.4% were successfully prepared by Ar/CO2/C2H4 plasma polymerization. It has been shown that adhesion and proliferation of mesenchymal stem cells (MSCs) seeded onto plasma-modified PCL nanofibers are controlled by the CO2:C2H4 ratio. At a high CO2:C2H4 ratio, a well-defined network of actin microfilaments is observed in the MSCs. Nanofibers produced at a low CO2:C2H4 ratio showed poor cell adhesion and very poor survival. There were significantly fewer cells on the surface, they had a small spreading area, a poorly developed network of actin filaments, and there were almost no stress fibrils. The maximum percentage of proliferating cells was recorded at a CO2:C2H4 ratio of 35:15 compared with gaseous environments of 25:20 and 20:25 (24.1 ± 1.5; 8.4 ± 0.9, and 4.1 ± 0.4%, respectively). Interestingly, no differences were observed between the number of cells on the untreated surface and the plasma-polymerized surface at CO2:C2H4 = 20:25 (4.9 ± 0.6 and 4.1 ± 0.4, respectively). Thus, Ar/CO2/C2H4 plasma polymerization can be an excellent tool for regulating the viability of MSCs by simply adjusting the CO2:C2H4 ratio. [ABSTRACT FROM AUTHOR]

Published

2022

17. Ag-Contained Superabsorbent Curdlan–Chitosan Foams for Healing Wounds in a Type-2 Diabetic Mice Model.

Author

Permyakova, Elizaveta S., Konopatsky, Anton S., Ershov, Konstantin I., Bakhareva, Ksenia I., Sitnikova, Natalya A., Shtansky, Dmitry V., Solovieva, Anastasiya O., and Manakhov, Anton M.

Subjects

WOUND healing, FOAM, ANIMAL disease models, CURDLAN, LABORATORY mice, MICROSCOPY

Abstract

This study focused on the synthesis and characterization of pure curdlan–chitosan foams (CUR/CS), as well as foams containing Ag nanoparticles (CUR/CS/Ag), and their effect on the skin repair of diabetic mice (II type). The layer of antibacterial superabsorbent foam provides good oxygenation, prevents bacterial infection, and absorbs exudate, forming a soft gel (moist environment). These foams were prepared from a mixture of hydrolyzed curdlan and chitosan by lyophilization. To enhance the antibacterial properties, an AgNO3 solution was added to the curdlan/chitosan mixture during the polymerization and was then reduced by UV irradiation. The membranes were further investigated for their structure and composition using optical microscopy, scanning electron microscopy, energy-dispersive spectroscopy, FT-IR spectroscopy, and XPS analysis and modeling. In vivo tests demonstrated that CUR/CS/Ag significantly boosted the regeneration process compared with pure CUR/CS and the untreated control. [ABSTRACT FROM AUTHOR]

Published

2022

18. Single-domain antibody C7b for address delivery of nanoparticles to HER2-positive cancers.

Author

Vorotnikov, Yuri A., Novikova, Evgeniya D., Solovieva, Anastasiya O., Shanshin, Daniil V., Tsygankova, Alphiya R., Shcherbakov, Dmitrii N., Efremova, Olga A., and Shestopalov, Michael A.

Published

2020

19. From Specific γ‐CD/[Nb6Cl12(H2O)6]2+ Recognition to Biological Activity Tuning.

Author

Ivanov, Anton A., Pozmogova, Tatiana N., Solovieva, Anastasiya O., Frolova, Tatiana S., Sinitsyna, Olga I., Lundovskaya, Olga V., Tsygankova, Alphiya R., Haouas, Mohamed, Landy, David, Benassi, Enrico, Shestopalova, Lidiya V., Falaise, Clément, Cadot, Emmanuel, Shestopalov, Michael A., Abramov, Pavel A., and Sokolov, Maxim N.

Subjects

ISOTHERMAL titration calorimetry, AQUEOUS solutions, NUCLEAR magnetic resonance spectroscopy, MOLECULAR association, LEAD titanate, WATER

Abstract

Specific molecular recognition of γ‐cyclodextrin (γ‐CD) by the cationic hexanuclear niobium [Nb6Cl12(H2O)6]2+ cluster complex in aqueous solutions results in a 1:1 supramolecular assembly {[Nb6Cl12(H2O)6]@γ‐CD}2+. NMR spectroscopy, isothermal titration calorimetry (ITC), and ESI‐MS were used to study the interaction between the inorganic cluster and the organic macrocycle. Such molecular association affects the biological activity of [Nb6Cl12(H2O)6]2+, decreasing its cytotoxicity despite enhanced cellular uptake. The 1:1 stoichiometry is maintained in solution over a large window of the reagents' ratio, but crystallization by slow evaporation produces a 1:2 host–guest complex [Nb6Cl12(H2O)6@(γ‐CD)2]Cl2⋅20 H2O featuring the cluster encapsulated between two molecules of γ‐CD. The 1:2 complex was characterized by XRD, elemental analysis, IR spectroscopy, and thermogravimetric analysis (TGA). Quantum chemical calculations were performed to model host–guest interaction. [ABSTRACT FROM AUTHOR]

Published

2020

20. Water-soluble Re6-clusters with aromatic phosphine ligands – from synthesis to potential biomedical applications.

Author

Ivanov, Anton A., Konovalov, Dmitry I., Pozmogova, Tatiana N., Solovieva, Anastasiya O., Melnikov, Anatoly R., Brylev, Konstantin A., Kuratieva, Natalia V., Yanshole, Vadim V., Kirakci, Kaplan, Lang, Kamil, Cheltygmasheva, Svetlana N., Kitamura, Noboru, Shestopalova, Lidiya V., Mironov, Yuri V., and Shestopalov, Michael A.

Published

2019

21. From Photoinduced to Dark Cytotoxicity through an Octahedral Cluster Hydrolysis.

Author

Svezhentseva, Ekaterina V., Vorotnikov, Yuri A., Solovieva, Anastasiya O., Pozmogova, Tatiana N., Eltsov, Ilia V., Ivanov, Anton A., Evtushok, Darya V., Miroshnichenko, Svetlana M., Yanshole, Vadim V., Eling, Charlotte J., Adawi, Ali M., Bouillard, Jean‐Sebastien G., Kuratieva, Natalia V., Fufaeva, Maria S., Shestopalova, Lidiya V., Mironov, Yuri V., Efremova, Olga A., and Shestopalov, Michael A.

Subjects

HYDROLYSIS, SOLVOLYSIS, TUNGSTEN, CHROMIUM group, PHOTODYNAMIC therapy, PHOTOTHERAPY

Abstract

Octahedral molybdenum and tungsten clusters have potential biological applications in photodynamic therapy and bioimaging. However, poor solubility and hydrolysis stability of these compounds hinder their application. The first water‐soluble photoluminescent octahedral tungsten cluster [{W6I8}(DMSO)6](NO3)4 was synthesised and demonstrated to be at least one order of magnitude more stable towards hydrolysis than its molybdenum analogue. Biological studies of the compound on larynx carcinoma cells suggest that it has a significant photoinduced toxicity, while the dark toxicity increases with the increase of the degree of hydrolysis. The increase of the dark toxicity is associated with the in situ generation of nanoparticles that clog up the cisternae of rough endoplasmic reticulum. Poor aqueous solubility and fast hydrolysis hinder the medical application of octahedral molybdenum clusters. Here, the first water‐soluble photoluminescent tungsten cluster [{W6I8}(DMSO)6](NO3)4 is reported and its higher solubility towards hydrolysis in comparison with its molybdenum analogue is demonstrated. Biological studies suggest that it has a significant photoinduced toxicity, while the dark toxicity increases with the increase of the degree of hydrolysis due to generation of nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2018

22. Genetic diversity and population structure of domestic and wild reindeer (Rangifer tarandus L. 1758): A novel approach using BovineHD BeadChip.

Author

Kharzinova, Veronika Ruslanovna, Dotsev, Arsen Vladimirovich, Deniskova, Tatiana Evgenievna, Solovieva, Anastasiya Dmitrievna, Fedorov, Valeriy Ivanovich, Layshev, Kasim Anverovich, Romanenko, Tatiana Michailovna, Okhlopkov, Innokentiy Michailovich, Wimmers, Klaus, Reyer, Henry, Brem, Gottfried, and Zinovieva, Natalia Anatolievna

Subjects

REINDEER, MAMMAL genetics, GENOTYPES, MAMMAL conservation, TUNDRA ecology

Abstract

Reindeer (Rangifer tarandus L. 1758) are an essential element of the Russian Far North, providing a significant source of nutrition for the representatives of 18 ethnicities. The species has wild and domestic forms, which are in constant interaction. The aim of our study was to characterize the genetic structure of domestic and wild reindeer populations, using a genome-wide bovine genotyping array (BovineHD BeadChip). The wild reindeer samples were obtained from the western Taymyr Peninsula population and from the taiga and tundra populations in the Sakha Republic (Yakutia). The domestic populations included the Evenk, Even, and Chukotka-Khargin breeds of Yakutia and the Nenets breed from the Nenets Autonomous district and Murmansk region. The level of genetic diversity was higher for the wild population. Analyzing Neighbor-Net tree, multidimensional scaling, and Structure results, we observed strong genetic population structure and clear differentiation between domestic and wild populations. All regional populations of domestic reindeer were clearly separated, while wild reindeer showed similar genetic backgrounds. Nevertheless, we found contrasting patterns in the genetic structure of the tundra and taiga reindeer, in accordance with their morphological and ecological differences. Thus, our study revealed a clear genetic differentiation between domestic and wild reindeer populations. It provides novel insights into the genetic diversity and structure of reindeer populations, to support resource utilization and aid in the development of genetic improvement strategies and conservation programs for this species. [ABSTRACT FROM AUTHOR]

Published

2018

23. Luminescent coordination polymers based on Ca2+ and octahedral cluster anions [{M6Cli8}Cla6]2− (M = Mo, W): synthesis and thermal stability studies.

Author

Evtushok, Darya V., Vorotnikova, Natalya A., Logvinenko, Vladimir A., Smolentsev, Anton I., Brylev, Konstantin A., Plyusnin, Pavel E., Pishchur, Denis P., Kitamura, Noboru, Mironov, Yuri V., Solovieva, Anastasiya O., Efremova, Olga A., and Shestopalov, Michael A.

Subjects

FLUORESCENT polymers, COORDINATION polymers synthesis, THERMAL stability, IONIC clusters, TUNGSTEN-molybdenum alloys, ANIONS

Abstract

Luminescent coordination polymers (CPs) based on inexpensive stable precursors are attractive materials for applications. Here we report the synthesis and evaluation of the stability and photophysical characteristics of the first examples of phosphorescent CPs based on octahedral molybdenum and tungsten cluster anions. In particular, 1D CP trans-[{Ca(OPPh3)4}{{M6Cli8}Cla6}]∞ (M = Mo, W) can be obtained either directly at increased temperature or via intermediate phases [cis-Ca(OPPh3)4(H2O)2][{M6Cli8}Cla6]·2CH3CN that are stable at room-temperature, but convert to the titled CPs at temperatures above 100 °C. [ABSTRACT FROM AUTHOR]

Published

2017

24. Immobilization of Platelet-Rich Plasma onto COOH lasma-Coated PCL Nanofibers Boost Viability and roliferation of Human Mesenchymal Stem Cells.

Author

Solovieva, Anastasiya, Miroshnichenko, Svetlana, Kovalskii, Andrey, Permyakova, Elizaveta, Popov, Zakhar, áková, Eva Dvoř, Kiryukhantsev-Korneev, Philip, Obrosov, Aleksei, Polčak, Josef, Zajíčková, Lenka, Shtansky, Dmitry V., and Manakhov, Anton

Subjects

*MESENCHYMAL stem cells, *MULTIPOTENT stem cells, *STROMAL cells, *STEM cell culture, *HUMAN stem cells

Abstract

The scaffolds made of polycaprolactone (PCL) are actively employed in different areas of biology and medicine, especially in tissue engineering. However, the usage of unmodified PCL is significantly restricted by the hydrophobicity of its surface, due to the fact that its inert surface hinders the adhesion of cells and the cell interactions on PCL surface. In this work, the surface of PCL nanofibers is modified by Ar/CO2/C2H4 plasma depositing active COOH groups in the amount of 0.57 at % that were later used for the immobilization of platelet-rich plasma (PRP). The modification of PCL nanofibers significantly enhances the viability and proliferation (by hundred times) of human mesenchymal stem cells, and decreases apoptotic cell death to a normal level. According to X-ray photoelectron spectroscopy (XPS), after immobilization of PRP, up to 10.7 at % of nitrogen was incorporated into the nanofibers surface confirming the grafting of proteins. Active proliferation and sustaining the cell viability on nanofibers with immobilized PRP led to an average number of cells of 258 ± 12.9 and 364 ± 34.5 for nanofibers with ionic and covalent bonding of PRP, respectively. Hence, our new method for the modification of PCL nanofibers with PRP opens new possibilities for its application in tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2017

25. Singlet Oxygen Production and Biological Activity of Hexanuclear Chalcocyanide Rhenium Cluster Complexes [{Re6Q8}(CN)6]4- (Q = S, Se, Te).

Author

Solovieva, Anastasiya O., Kirakci, Kaplan, Ivanov, Anton A., Kubát, Pavel, Pozmogova, Tatiana N., Miroshnichenko, Svetlana M., Vorontsova, Elena V., Chechushkov, Anton V., Trifonova, Kristina E., Fufaeva, Maria S., Kretov, Evgeniy I., Mironov, Yuri V., Poveshchenko, Alexander F., Lang, Kamil, and Shestopalov, Michael A.

Published

2017

26. A comparative study of hydrophilic phosphine hexanuclear rhenium cluster complexes' toxicity.

Author

Krasilnikova, Anna A., Solovieva, Anastasiya O., Ivanov, Anton A., Brylev, Konstantin A., Pozmogova, Tatiana N., Gulyaeva, Marina A., Kurskaya, Olga G., Alekseev, Alexander Y., Shestopalov, Alexander M., Shestopalova, Lidiya V., Poveshchenko, Alexander F., Efremova, Olga A., Mironov, Yuri V., and Shestopalov, Michael A.

Subjects

RHENIUM compounds, CELL-mediated cytotoxicity, HYDROPHILIC compounds, PHOSPHINE, OSMOLALITY

Abstract

The octahedral rhenium cluster compound Na2H8[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6] has recently emerged as a very promising X-ray contrast agent for biomedical applications. However, the synthesis of this compound is rather challenging due to the difficulty in controlling the hydrolysis of the initial P(C2H4CN)3 ligand during the reaction process. Therefore, in this report we compare the in vitro and in vivo toxicity of Na2H8[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6] with those of related compounds featuring the fully hydrolysed form of the phosphine ligand, namely Na2H14[{Re6Q8}(P(C2H4COO)3)6] (Q = S or Se). Our results demonstrate that the cytotoxicity and acute in vivo toxicity of the complex Na2H8[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6] solutions were considerably lower than those of compounds with the fully hydrolysed ligand P(C2H4COOH)3. Such behavior can be explained by the higher osmolality of Na2H14[{Re6Q8}(P(C2H4COO)3)6] versus Na2H8[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6]. [ABSTRACT FROM AUTHOR]

Published

2017

27. Water-soluble hybrid materials based on {Mo6X8}4+ (X = Cl, Br, I) cluster complexes and sodium polystyrene sulfonate.

Author

Vorotnikov, Yuri A., Svezhentseva, Ekaterina V., Brylev, Konstantin A., Tsygankova, Alphiya R., Mironov, Yuri V., Shestopalov, Michael A., Solovieva, Anastasiya O., Kurskaya, Olga G., Gyrylova, Svetlana N., Shestopalov, Alexander M., Edeleva, Mariya V., Kitamura, Noboru, and Efremova, Olga A.

Subjects

MOLYBDENUM, CERVICAL cancer, POLYSTYRENE

Abstract

The development of water-soluble forms of octahedral molybdenum clusters {Mo6X8}4+ (X = Cl, Br, I) is strongly motivated by the tremendous potential that these complexes have for biological applications, namely as agents for bioimaging and photodynamic therapy. In this work, we report the first water-soluble hybrid materials, which represent sodium polystyrene sulfonate doped by molybdenum clusters, and the evaluation of their photophysical and biological properties (dark and photoinduced cytotoxicity and cellular uptake) with the use of cervical cancer (HeLa) and human epidermoid larynx carcinoma (Hep-2) cell-lines as models. [ABSTRACT FROM AUTHOR]

Published

2017

28. Cellular internalization and morphological analysis after intravenous injection of a highly hydrophilic octahedral rhenium cluster complex - a new promising X-ray contrast agent.

Author

Krasilnikova, Anna A., Solovieva, Anastasiya O., Trifonova, Kristina E., Brylev, Konstantin A., Ivanov, Anton A., Kim, Sung-Jin, Shestopalov, Michael A., Fufaeva, Maria S., Shestopalov, Alexander M., Mironov, Yuri V., Poveshchenko, Alexander F., and Shestopalova, Lidia V.

Abstract

The octahedral cluster compound Na2H8[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6] has been shown to be highly radio dense, thus becoming a promising X-ray contrast agent. It was also shown that this compound had low cytotoxic effect in vitro, low acute toxicity in vivo and was eliminated rapidly from the body through the urinary tract. The present contribution describes a more detailed cellular internalization assay and morphological analysis after intravenous injection of this hexarhenium cluster compound at different doses. The median lethal dose (LD50) of intravenously administrated compound was calculated (4.67 ± 0.69 g/kg). Results of the study clearly indicated that the cluster complex H n[{Re6Se8}(P(C2H4CONH2)(C2H4COO)2)6] n-10 was not internalized into cells in vitro and induced only moderate morphological alterations of kidneys at high doses without any changes in morphology of liver, spleen, duodenum, or heart of mice. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

29. Cellular internalisation, bioimaging and dark and photodynamic cytotoxicity of silica nanoparticles doped by {Mo6I8}4+ metal clusters.

Author

Solovieva, Anastasiya O., Vorotnikov, Yuri A., Trifonova, Kristina E., Efremova, Olga A., Krasilnikova, Anna A., Brylev, Konstantin A., Vorontsova, Elena V., Avrorov, Pavel A., Shestopalova, Lidiya V., Poveshchenko, Alexander F., Mironov, Yuri V., and Shestopalov, Michael A.

Abstract

Silica nanoparticles (SNPs) doped by hexanuclear molybdenum cluster complexes [{Mo6X8}L6]n (X = Cl, Br, or I; L = various inorganic or organic ligands) have been recently suggested as materials with high potential for biomedical applications due to both their outstanding photoluminescence properties and their ability to efficiently generate singlet oxygen upon photoirradiation. However, no studies were undertaken so far to prove this concept. Therefore, here we examined the potential of photoluminescent SNPs doped by {Mo6I8}4+ for applications such as bioimaging and photodynamic therapy using the human epidermoid larynx carcinoma (Hep-2) cell line as a model. Our results demonstrated both: (i) significant luminescence from cells with internalised molybdenum cluster-doped SNPs combined with the low cytotoxicity of particles in the darkness and (ii) significant cytotoxicity of the particles upon photoirradiation. Thus, this research provides strong experimental evidence for high potential of molybdenum-cluster-doped materials in biomedical applications such as optical bioimaging, biolabeling and photodynamic therapy. [ABSTRACT FROM AUTHOR]

Published

2016

30. The first water-soluble hexarhenium cluster complexes with a heterocyclic ligand environment: synthesis, luminescence, and biological properties.

Author

Shestopalov, Michael A., Zubarev, Kristina E., Khripko, Olga P., Khripko, Yuri L., Solovieva, Anastasiya O., Kuratieva, Natalia V., Mironov, Yuri V., Noboru Kitamura, Fedorov, Vladimir E., and Brylev, Konstantin A.

Published

2014

31. Biodegradable Nanohybrid Materials as Candidates for Self-Sanitizing Filters Aimed at Protection from SARS-CoV-2 in Public Areas.

Author

Manakhov, Anton M., Permyakova, Elizaveta S., Sitnikova, Natalya A., Tsygankova, Alphiya R., Alekseev, Alexander Y., Solomatina, Maria V., Baidyshev, Victor S., Popov, Zakhar I., Blahová, Lucie, Eliáš, Marek, Zajíčková, Lenka, Kovalskii, Andrey M., Sheveyko, Alexander N., Kiryukhantsev-Korneev, Philipp V., Shtansky, Dmitry V., Nečas, David, and Solovieva, Anastasiya O.

Subjects

NANOFIBERS, BIODEGRADABLE materials, PUBLIC spaces, POLYCAPROLACTONE, SARS-CoV-2, INTERNAL rate of return, MAGNETRON sputtering

Abstract

The COVID-19 pandemic has raised the problem of efficient, low-cost materials enabling the effective protection of people from viruses transmitted through the air or via surfaces. Nanofibers can be a great candidate for efficient air filtration due to their structure, although they cannot protect from viruses. In this work, we prepared a wide range of nanofibrous biodegradable samples containing Ag (up to 0.6 at.%) and Cu (up to 20.4 at.%) exhibiting various wettability. By adjusting the magnetron current (0.3 A) and implanter voltage (5 kV), the deposition of TiO2 and Ag+ implantation into PCL/PEO nanofibers was optimized in order to achieve implantation of Ag+ without damaging the nanofibrous structure of the PCL/PEO. The optimal conditions to implant silver were achieved for the PCL-Ti0.3-Ag-5kV sample. The coating of PCL nanofibers by a Cu layer was successfully realized by magnetron sputtering. The antiviral activity evaluated by widely used methodology involving the cultivation of VeroE6 cells was the highest for PCL-Cu and PCL-COOH, where the VeroE6 viability was 73.1 and 68.1%, respectively, which is significantly higher compared to SARS-CoV-2 samples without self-sanitizing (42.8%). Interestingly, the samples with implanted silver and TiO2 exhibited no antiviral effect. This difference between Cu and Ag containing nanofibers might be related to the different concentrations of ions released from the samples: 80 μg/L/day for Cu2+ versus 15 µg/L/day for Ag+. The high antiviral activity of PCL-Cu opens up an exciting opportunity to prepare low-cost self-sanitizing surfaces for anti-SARS-CoV-2 protection and can be essential for air filtration application and facemasks. The rough cost estimation for the production of a biodegradable nanohybrid PCL-Cu facemask revealed ~$0.28/piece, and the business case for the production of these facemasks would be highly positive, with an Internal Rate of Return of 34%. [ABSTRACT FROM AUTHOR]

Published

2022

32. Electrospun Biodegradable Nanofibers Coated Homogenously by Cu Magnetron Sputtering Exhibit Fast Ion Release. Computational and Experimental Study.

Author

Manakhov, Anton M., Sitnikova, Natalya A., Tsygankova, Alphiya R., Alekseev, Alexander Yu., Adamenko, Lyubov S., Permyakova, Elizaveta, Baidyshev, Victor S., Popov, Zakhar I., Blahová, Lucie, Eliáš, Marek, Zajíčková, Lenka, and Solovieva, Anastasiya O.

Subjects

MAGNETRON sputtering, FAST ions, NANOFIBERS, THERMORESPONSIVE polymers, MOLECULAR dynamics, X-ray photoelectron spectroscopy, POLYCAPROLACTONE

Abstract

Copper-coated nanofibrous materials are desirable for catalysis, electrochemistry, sensing, and biomedical use. The preparation of copper or copper-coated nanofibers can be pretty challenging, requiring many chemical steps that we eliminated in our robust approach, where for the first time, Cu was deposited by magnetron sputtering onto temperature-sensitive polymer nanofibers. For the first time, the large-scale modeling of PCL films irradiation by molecular dynamics simulation was performed and allowed to predict the ions penetration depth and tune the deposition conditions. The Cu-coated polycaprolactone (PCL) nanofibers were thoroughly characterized and tested as antibacterial agents for various Gram-positive and Gram-negative bacteria. Fast release of Cu2+ ions (concentration up to 3.4 µg/mL) led to significant suppression of E. coli and S. aureus colonies but was insufficient against S. typhimurium and Ps. aeruginosa. The effect of Cu layer oxidation upon contact with liquid media was investigated by X-ray photoelectron spectroscopy revealing that, after two hours, 55% of Cu atoms are in form of CuO or Cu(OH)2. The Cu-coated nanofibers will be great candidates for wound dressings thanks to an interesting synergistic effect: on the one hand, the rapid release of copper ions kills bacteria, while on the other hand, it stimulates the regeneration with the activation of immune cells. Indeed, copper ions are necessary for the bacteriostatic action of cells of the immune system. The reactive CO2/C2H4 plasma polymers deposited onto PCL-Cu nanofibers can be applied to grafting of viable proteins, peptides, or drugs, and it further explores the versatility of developed nanofibers for biomedical applications use. [ABSTRACT FROM AUTHOR]

Published

2021

33. Insight into the Current Genetic Diversity and Population Structure of Domestic Reindeer (Rangifer tarandus) in Russia.

Author

Kharzinova, Veronika, Dotsev, Arsen, Solovieva, Anastasiya, Sergeeva, Olga, Bryzgalov, Georgiy, Reyer, Henry, Wimmers, Klaus, Brem, Gottfried, and Zinovieva, Natalia

Subjects

CARIBOU, REINDEER, SINGLE nucleotide polymorphisms, ANIMAL adaptation, PRINCIPAL components analysis, ANIMAL herds

Abstract

Simple Summary: Reindeer herding is the most important agricultural sector of the Russian Far North, representing the local genetic resources that compose original genetic wealth for the indigenous Arctic ethnic groups, which has maintained their life in harsh conditions of the area for many years. Conservation about and further rational use of such resources are very difficult without taking into account genetic diversity. Here, for the first time, the current genetic composition of the four officially recognized reindeer breeds and their ecotypes inhabiting the area from the Kola Peninsula in the west to the Chukotka region in the east are described using a single-nucleotide polymorphism (SNP) array. Our findings reveal the genetic uniqueness of each breed, formed by the consequences of ecological processes, internal gene flow, breeding practices, and geographical features. The obtained results will assist the ongoing breeding policy to develop accurate programs to preserve genetic resources of this essential element of Russia's Far North ecosystem. To examine the genetic diversity and population structure of domestic reindeer, using the BovineHD BeadChip, we genotyped reindeer individuals belonging to the Nenets breed of the five main breeding regions, the Even breed of the Republic of Sakha, the Evenk breed of the Krasnoyarsk and Yakutia regions, and the Chukotka breed of the Chukotka region and its within-breed ecotype, namely, the Chukotka–Khargin, which is bred in Yakutia. The Chukotka reindeer was shown to have the lowest genetic diversity in terms of the allelic richness and heterozygosity indicators. The principal component analysis (PCA) results are consistent with the neighbor-net tree topology, dividing the reindeer into groups according to their habitat location and origin of the breed. Admixture analysis indicated a genetic structuring of two groups of Chukotka origin, the Even breed and most of the geographical groups of the Nenets breed, with the exception of the Murmansk reindeer, the gene pool of which was comprised of the Nenets and apparently the native Sami reindeer. The presence of a genetic component of the Nenets breed in some reindeer inhabiting the Krasnoyarsk region was detected. Our results provide a deeper insight into the current intra-breeding reindeer genetic diversity, which is an important requirement for future reindeer herding strategies and for animal adaptation to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2020

34. Apolipoprotein A-I Supports MSCs Survival under Stress Conditions.

Author

Miroshnichenko, Svetlana, Usynin, Ivan, Dudarev, Alexey, Nimaev, Vadim, and Solovieva, Anastasiya

Subjects

BLOOD plasma, TYPE 2 diabetes, BLOOD groups, STROMAL cells, CELL cycle, HIGH density lipoproteins

Abstract

Clinical trials have shown the safety of mesenchymal stem/stromal cells (MSCs) transplantation, but the effectiveness of these treatments is limited. Since, transplanted MSCs will undergo metabolic disturbances in the bloodstream, we investigated the influence of blood plasmas of type 2 diabetes (T2D) patients on MSCs viability and examined whether apolipoprotein A-I (apoA-I) could protect cells from stressful conditions of serum deprivation (SD), hypoxia, and elevated concentrations of reactive oxygen species (ROS). ApoA-I exhibits anti-inflammatory, immune activities, improves glycemic control, and is suitable for T2D patients but its influence on MSCs remains unknown. For the first time we have shown that apoA-I decreases intracellular ROS and supports proliferative rate of MSCs, thereby increasing cell count in oxidation conditions. ApoA-I did not influence cell cycle when MSCs were predominantly in the G0/G1 phases under conditions of SD/hypoxia, activated proliferation rapidly, and reduced apoptosis during MSCs transition to the oxygenation or oxidation conditions. Finally, it was found that the blood plasma of T2D individuals had a cytotoxic effect on MSCs in 39% of cases and had a wide variability of antioxidant properties. ApoA-I protects cells under all adverse conditions and can increase the efficiency of MSCs transplantation in T2D patients. [ABSTRACT FROM AUTHOR]

Published

2020

35. XPS Modeling of Immobilized Recombinant Angiogenin and Apoliprotein A1 on Biodegradable Nanofibers.

Author

Manakhov, Anton, Permyakova, Elizaveta, Ershov, Sergey, Miroshnichenko, Svetlana, Pykhtina, Mariya, Beklemishev, Anatoly, Kovalskii, Andrey, and Solovieva, Anastasiya

Subjects

ANGIOGENIN, NANOFIBERS, X-ray photoelectron spectroscopy, IMMOBILIZED cells, REGENERATIVE medicine, TISSUE engineering

Abstract

The immobilization of viable proteins is an important step in engineering efficient scaffolds for regenerative medicine. For example, angiogenin, a vascular growth factor, can be considered a neurotrophic factor, influencing the neurogenesis, viability, and migration of neurons. Angiogenin shows an exceptional combination of angiogenic, neurotrophic, neuroprotective, antibacterial, and antioxidant activities. Therefore, this protein is a promising molecule that can be immobilized on carriers used for tissue engineering, particularly for diseases that are complicated by neurotrophic and vascular disorders. Another highly important and viable protein is apoliprotein A1. Nevertheless, the immobilization of these proteins onto promising biodegradable nanofibers has not been tested before. In this work, we carefully studied the immobilization of human recombinant angiogenin and apoliprotein A1 onto plasma-coated nanofibers. We developed a new methodology for the quantification of the protein density of these proteins using X-ray photoelectron spectroscopy (XPS) and modeled the XPS data for angiogenin and apoliprotein A1 (Apo-A1). These findings were also confirmed by the analysis of immobilized Apo-A1 using fluorescent microscopy. The presented methodology was validated by the analysis of fibronectin on the surface of plasma-coated poly(ε-caprolactone) (PCL) nanofibers. This methodology can be expanded for other proteins and it should help to quantify the density of proteins on surfaces using routine XPS data treatment. [ABSTRACT FROM AUTHOR]

Published

2020

36. Plasma-Coated Polycaprolactone Nanofibers with Covalently Bonded Platelet-Rich Plasma Enhance Adhesion and Growth of Human Fibroblasts.

Author

Miroshnichenko, Svetlana, Timofeeva, Valeriia, Permyakova, Elizaveta, Ershov, Sergey, Kiryukhantsev-Korneev, Philip, Dvořaková, Eva, Shtansky, Dmitry V., Zajíčková, Lenka, Solovieva, Anastasiya, and Manakhov, Anton

Subjects

PLATELET-rich plasma, NANOFIBERS, HUMAN growth, POLYCAPROLACTONE, X-ray photoelectron spectroscopy, IMMOBILIZED cells

Abstract

Biodegradable nanofibers are extensively employed in different areas of biology and medicine, particularly in tissue engineering. The electrospun polycaprolactone (PCL) nanofibers are attracting growing interest due to their good mechanical properties and a low-cost structure similar to the extracellular matrix. However, the unmodified PCL nanofibers exhibit an inert surface, hindering cell adhesion and negatively affecting their further fate. The employment of PCL nanofibrous scaffolds for wound healing requires a certain modification of the PCL surface. In this work, the morphology of PCL nanofibers is optimized by the careful tuning of electrospinning parameters. It is shown that the modification of the PCL nanofibers with the COOH plasma polymers and the subsequent binding of NH2 groups of protein molecules is a rather simple and technologically accessible procedure allowing the adhesion, early spreading, and growth of human fibroblasts to be boosted. The behavior of fibroblasts on the modified PCL surface was found to be very different when compared to the previously studied cultivation of mesenchymal stem cells on the PCL nanofibrous meshes. It is demonstrated by X-ray photoelectron spectroscopy (XPS) that the freeze–thawed platelet-rich plasma (PRP) immobilization can be performed via covalent and non-covalent bonding and that it does not affect biological activity. The covalently bound components of PRP considerably reduce the fibroblast apoptosis and increase the cell proliferation in comparison to the unmodified PCL nanofibers or the PCL nanofibers with non-covalent bonding of PRP. The reported research findings reveal the potential of PCL matrices for application in tissue engineering, while the plasma modification with COOH groups and their subsequent covalent binding with proteins expand this potential even further. The use of such matrices with covalently immobilized PRP for wound healing leads to prolonged biological activity of the immobilized molecules and protects these biomolecules from the aggressive media of the wound. [ABSTRACT FROM AUTHOR]

Published

2019

37. Supporting effect of polyethylenimine on hexarhenium hydroxo cluster complex for cellular imaging applications.

Author

Elistratova, Julia G., Brylev, Konstantin A., Solovieva, Anastasiya O., Pozmogova, Tatyana N., Mustafina, Asiya R., Shestopalova, Lidiya V., Shestopalov, Michael A., Syakayev, Viktor V., Karasik, Andrey A., and Sinyashin, Oleg G.

Subjects

*CELL imaging, *IMINES, *ELECTROSTATIC interaction, *NUCLEAR magnetic resonance spectroscopy, *SUPRAMOLECULAR chemistry, *LUMINESCENCE

Abstract

The present work introduces an insight into pH- and concentration-dependent binding of branched polyethylenimine (PEI) with hexarhenium hydroxo cluster complex [{Re6S8}(OH)6]4- aimed at enhancing the stability, luminescence intensity and cellular uptake of the cluster complex in aqueous solutions at pH 7.4. Luminescence and conductivity measurements revealed pH 7.4 and 1:1 of PEI:cluster molar ratio as specific conditions ensuring multiple electrostatic interactions of protonated amino groups of PEI with the tetra-anionic cluster units. These interactions resulted in a significant supporting effect of PEI on stability and luminescence of the cluster complex, while no effect of the cluster complex on the acid-base and aggregation properties of PEI was detected from dynamic light scattering and ¹H NMR spectroscopy measurements. The cluster luminescence remained without degradation for at least two weeks due to the supporting effect of PEI, which can facilitate the application of the cluster complex in bioimaging. The cellular uptake of [{Re6S8}(OH)6]4- and [{Re6S8}(OH)6]4-@PEI was investigated. Confocal microscopic studies showed that the pristine cluster complex [{Re6S8}(OH)6]4- did not enter cells (the human larynx carcinoma cell line (Hep-2)), whereas the supramolecular assembly [{Re6S8}(OH)6]4-@PEI internalized into the cells. [ABSTRACT FROM AUTHOR]

Published

2017

38. Effect of lithium carbonate on autophagy and proliferative activity of isolated hepatocytes.

Author

Dossymbekova, Raushan, Bgatova, Nataliya, Tungushbayeva, Zina, Sharipov, Kamalidin, Taneyeva, Gulzhan, Kydyrbaeva, Asem, and Solovieva, Anastasiya

Subjects

*LITHIUM carbonate, *CELL cycle, *CLINICAL drug trials, *APOPTOSIS, *ELECTRON microscopy, *LIVER cells

Abstract

The hepatocytes were cultivated in the presence of lithium carbonate (LC) for drugs testing or possible source for transplantation in the treatment of hereditary or terminal liver diseases. The LC, as an inducer of autophagy, is a promising drug for maintaining cell homeostasis and has a significant effect on the ultrastructural organization of hepatocyte cells. Within current investigation, new mechanisms of the biological effects of lithium and the ultrastructural analysis of the primary culture of hepatocytes were studied via flow cytofluorometry, light, and electron microscopy methods. Obtained results demonstrate the absence of the toxic effect of 5 mM of LC on the primary hepatocyte culture. In addition, LC does not block the cell cycle at the G 0 /G 1 stage after 24 h of hepatocyte cultivation and promotes the preservation of their viability by 48 h of the experiment. Moreover, LC does not stimulate hepatocyte apoptosis, induces autophagy and the preserves the proliferative activity of hepatocytes. • Lithium carbonate has a significant effect on the ultrastructural organization of hepatocyte cells. • There is no toxic effect of 5 mM of lithium carbonate on the primary hepatocyte culture. • Lithium carbonate does not block the cell cycle at the G 0 /G 1 stage after 24 h of hepatocytes cultivation. • Lithium carbonate does not stimulate hepatocytes apoptosis, induces autophagy and preserves of their proliferative activity. [ABSTRACT FROM AUTHOR]

Published

2020