Your search keyword '"Siposova K"' showing total 41 results

1. Disruption of amyloid aggregates by artificial ferritins

Author

Balejčíková, L., Petrenko, V.I., Baťková, M., Šipošová, K., Garamus, V.M., Bulavin, L.A., Avdeev, M.V., Almásy, L., and Kopčanský, P.

Published

2019

2. Small-Angle Neutron Scattering Study of Bicelles and Proteobicelles with Incorporated Mitochondrial Cytochrome c Oxidase

Author

Siposova, K., Petrenko, V. I., Ivankov, O. I., Bulavin, L. A., and Musatov, A.

Subjects

small-angle neutron scattering, aggregation state, bicelles, cytochrome c oxidase, lipids (amino acids, peptides, and proteins), macromolecular substances

Abstract

The structural investigations of a model membrane system, bicelles, and the aggregation state of isolated and purified bovine heart cytochrome c oxidase (CcO) in bicelles have been performed using small-angle neutron scattering (SANS), SANS contrast variation, and complemented by various biophysical and biochemical techniques. The average size of bicelles prepared from long-chain 1,2-dimyristoyl-sn-glycero-3-phosphocholine and short-chain 1,2-dihexanoyl-sn-glycero-3-phosphocholine was found to be about 22 nm with a thickness of about 4 nm. Enzyme in bicelles was remained active and structurally unaltered. The estimated volume of protein in bicelles of 240 nm3corresponded well to the monomeric form of CcO. The ab initio modeling supports the experimental data and suggests that CcO in bicelles is a homogeneous monomeric complex incorporated into bicelles., За допомогою малокутового розсiяння нейтронiв (МКРН), варiацiї контрасту в МКРН та рiзних бiофiзичних i бiохiмiчних методiв були виконанi структурнi дослiдження модельних мембранних систем, бiцел, та агрегацiйний стан iзольованої та очищеної з бичачого серця цитохромоксидази в бiцелах. Було отримано, що середня довжина бiцел, якi синтезовано за допомогою довголанцюгового 1,2-дiмеристоiл-sn-глiцеро-3-фосфохолiну та коротколанцюгового 1,2-дiгексаноiл-sn-глiцеро-3-фосфохолiну, становила 22 нм, а товщина дорiвнювала 4 нм. Ензим в бiцелах залишався активним та структурно незмiнним. Розрахований об’єм протеїну в бiцелi ∼240 нм3 добре узгоджується з мономерною формою цитохромоксидази. Моделювання з перших принципiв пiдтвердило експериментальнi данi про те, що цитохромоксидаза в бiцелах є гомогенною, i що лише мономернi комплекси iнкорпорованi в бiцели.

Published

2020

3. Low molecular weight compounds inhibit protein amyloid self-assembly: P20-206

Author

Siposova, K., Kurin, E., Kozar, T., Antosova, A., Kutschy, P., Nagy, M., and Gazova, Z.

Published

2012

4. Magnetic fluids attenuate the cytotoxic effect of amyloid fibrils: P20-205

Author

Gazova, Z., Siposova, K., Koneracka, M., Zavisova, V., Kopcansky, P., Filippi, A., Ganea, C., Baran, I., and Mocanu, M.-M.

Published

2012

5. Structure Of Amyloid Aggregates Of Lysozyme From Small-Angle X-Ray Scattering Data

Author

Petrenko, V. I., Avdeev, M. V., Garamus, V. M., Kubovcikova, M., Gazova, Z., Siposova, K., Bulavin, L. A., Almasy, L., Aksenov, V. L., and Kopcansky, P.

Subjects

Physics::Biological Physics, Quantitative Biology::Biomolecules, Physics::Chemical Physics

Abstract

The structure of filament amyloid aggregates of hen egg white lysozyme in water has been investigated by the small-angle X-ray scattering method. The experimental data are described by different cylindrical models, among which the best agreement is reached with the long helix model. A comparison of the results with the small-angle neutron scattering data reveals the influence of the heavy component of the solvent (a H2O/D2O mixture) on the structure of the filaments.

Published

2014

6. MFBSAs as therapeutic agents targeting insulin amyloidosis

Author

Siposova, K., primary, Kubovċikova, M., additional, Bednarikova, Z., additional, Koneracka, M., additional, Závišová, V., additional, Kopċanský, P., additional, and Gazova, S., additional

Published

2013

7. Presence of Magnetic Fluids Leads to the Inhibition of Insulin Amyloid Aggregation

Author

Gazova, Z., primary, Siposova, K., additional, Koneracka, M., additional, Antosova, A., additional, Zavisova, V., additional, Kubovcikova, M., additional, Fedunova, D., additional, Bagelova, J., additional, Tomasovicova, N., additional, Daxnerova, Z., additional, and Kopcansky, P., additional

Published

2012

8. MAGNETIC NANOPARTICLES MODIFIED WITH POLYETHYLENE GLYCOL.

Author

Kubovčikova, M., Antal, I., Koneracka, M., Závišová, V., Jurikova, A., Siposova, K., Gazova, Z., Kovač, J., Kovarik, M., Kupka, D., and Kopčanský, P.

Subjects

SUPERPARAMAGNETIC materials, MAGNETIC properties of nanoparticles, MAGNETIC properties of nanostructured materials, MAGNETIC fluids, SQUID magnetometers

Abstract

In this study, the superparamagnetic nanoparticles (Fe3O4) sterically stabilized by sodium oleate were prepared and consequently modified with polyethylene glycol (PEG) to produce a biocompatible magnetic fluid. The samples were characterized by scanning electron microscopy (SEM) and dynamic light scattering (DLS) to confirm the spherical shape and the size of nanoparticles. The hydrodynamic diameter was increased after PEG-modification of the samples. Moreover, the optimal weight ratio PEG/Fe3O4 needed for surface modification of magnetite nanoparticles was found out by differential scanning calorimetry (DSC), and zeta potential measurements. Magnetic properties of MFPEGs were investigated by SQUID magnetometry. The SQUID measurements confirmed superparamagnetism and showed the influence of polymer molecular weight on the thermal stability of prepared samples. Biocompatibility of unmodified and PEG-modified magnetic particles was studied through the fluorescence intensity measurements after protein adsorption. [ABSTRACT FROM AUTHOR]

Published

2013

9. Electrochemical sensors for determination of potentially environmentally risk elements.

Author

Siposova K., Hezelova M., Pikna L., Siposova K., Hezelova M., and Pikna L.

Abstract

Catalytic converters are a major source of PGE emissions to the environment. Studies have been carried out to find an optimal electrochemical sensor, based on a paraffin impregnated graphite electrode (PIGE) modified with carbon nanotubes (CNT), for electrochemical determination of Pd, Pt and Ru in solutions. A conventional three-electrode system was used with an unmodified and a modified PIGE as the working electrode, a saturated Ag/AgCl as the reference electrode and a PT plate as the counter electrode. Cyclic voltammetry experiments were undertaken. The PIGEs were modified using multi-walled carbon nanotubes with different specific surface areas. The best results were obtained using a PMC-500 K nanotube with a limit of detection from 0.0000313 to 0.0000802 mol dm-3. Resulting from the ruthenium determination optimisation, the addition of palladium cations was found to be a good catalyst for ruthenium reduction. Using only one addition of Pd(II) and Ru(III) with a step-wise increase in concentration for the determination of ruthenium was found to be better than the standard addition of Pd(II) and Ru(III) mixtures with different ratios., 19 refs., Catalytic converters are a major source of PGE emissions to the environment. Studies have been carried out to find an optimal electrochemical sensor, based on a paraffin impregnated graphite electrode (PIGE) modified with carbon nanotubes (CNT), for electrochemical determination of Pd, Pt and Ru in solutions. A conventional three-electrode system was used with an unmodified and a modified PIGE as the working electrode, a saturated Ag/AgCl as the reference electrode and a PT plate as the counter electrode. Cyclic voltammetry experiments were undertaken. The PIGEs were modified using multi-walled carbon nanotubes with different specific surface areas. The best results were obtained using a PMC-500 K nanotube with a limit of detection from 0.0000313 to 0.0000802 mol dm-3. Resulting from the ruthenium determination optimisation, the addition of palladium cations was found to be a good catalyst for ruthenium reduction. Using only one addition of Pd(II) and Ru(III) with a step-wise increase in concentration for the determination of ruthenium was found to be better than the standard addition of Pd(II) and Ru(III) mixtures with different ratios.

10. Bioactive Carbon@CeO 2 Composites as Efficient Antioxidants with Antiamyloid and Radioprotective Potentials.

Author

Shlapa Y, Siposova K, Sarnatskaya V, Drajnova M, Silvestre-Albero J, Lykhova O, Maraloiu VA, Solopan SO, Molcan M, Musatov A, and Belous A

Subjects

Animals, Surface Properties, Rats, Cerium chemistry, Cerium pharmacology, Antioxidants chemistry, Antioxidants pharmacology, Carbon chemistry, Materials Testing, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Particle Size, Radiation-Protective Agents chemistry, Radiation-Protective Agents pharmacology

Abstract

Blending carbon particles (CPs) and nanoscale bioactive cerium dioxide is a promising approach for designing composites for biomedical applications, combining the sorption and antioxidant potentials of each individual component. To address this issue, it is crucial to assess the correlation between the components' ratio, physicochemical parameters, and biofunctionality of the composites. Thus, the current research was aimed at fabricating C@CeO 2 composites with different molar ratios and the examination of how the parameters of the composites affect their bioactivity. XRD, X-ray photoelectron spectroscopy, and electron microscopy data verified the formation of C@CeO 2 composites. CeO 2 nanoparticles (NPs) of 4-6 nm are highly dispersed on the surfaces of amorphous CPs. The presence of CeO 2 NPs on the carbon surface decreased its adsorption potential in a dose-dependent manner. Besides, the coexistence of carbon and CeO 2 in a single composite promotes some redox interactions between O-functionalities and Ce 3+ /Ce 4+ species, resulting in changes in the chemical state of the surface of the composites. These observations suggest the strong connection between these parameters and the biofunctionality of the composites. The presence of CeO 2 NPs on the surface of carbon led to a significant increase in the stability of the prepared composites in their aqueous suspensions. The enhancement of bioactivity of the newly prepared C@CeO 2 compared to bare carbon and CeO 2 was validated by testing their pseudomimetic (catalase/peroxidase-like and superoxide dismutase-like), antiamyloid, and radioprotective activities.

Published

2024

11. Biocompatible zeolite-dye composites with anti-amyloidogenic properties.

Author

Siposova K, Huntosova V, Sedlakova D, Macajova M, Bilcik B, Nair AV, Nair S, Hovhannisyan V, Chen SJ, and Musatov A

Subjects

Humans, Animals, Coloring Agents chemistry, Amyloid chemistry, Insulin chemistry, Indoles chemistry, Indoles pharmacology, Cell Line, Tumor, Zeolites chemistry, Zeolites pharmacology, Biocompatible Materials chemistry, Biocompatible Materials pharmacology

Abstract

One of the most attractive approaches in biomedicine and pharmacy is the application of multifunctional materials. The mesoporous structure of clinoptilolite (CZ) absorbs various types of substances and can be used as a model for studying the carriers for targeted drug delivery with controlled release. CZ-dye composites are fabricated by incorporation into clinoptilolite pores commonly used dyes, aluminum phthalocyanine, zinc porphine, and hypericin. We examined and compared the effect of pure dyes and CZ-dye composites on insulin amyloidogenesis. The formation of insulin amyloid fibrils and the disassembly of preformed fibrils is significantly affected by any of the three compounds, however, the strongest effect is observed for aluminum phthalocyanine indicating a structurally-dependent anti-amyloidogenic activity of the dyes. The incorporation of dyes into CZ particles resulted in enhanced anti-amyloidogenic activity in comparison to pure CZ particles. The cell metabolic activity, biocompatibility and fluorescence biodistribution of the dyes entrapped in the composites were tested in vitro (U87 MG cells) and in vivo in the quail chorioallantoic membrane model. Considering the photoactive properties of the dyes used, we assume their applicability in photodiagnostics and photodynamic therapy. It can also be expected that their anti-amyloidogenic potential can be enhanced by photodynamic effect., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

12. Design of Magnetic Fe 3 O 4 /CeO 2 "Core/Shell"-Like Nanocomposites with Pronounced Antiamyloidogenic and Antioxidant Bioactivity.

Author

Shlapa Y, Siposova K, Veltruska K, Maraloiu VA, Garcarova I, Rajnak M, Musatov A, and Belous A

Subjects

Ferrosoferric Oxide chemistry, Magnetics, Magnetic Phenomena, Antioxidants pharmacology, Nanocomposites chemistry

Abstract

"Core/shell" nanocomposites based on magnetic magnetite (Fe 3 O 4 ) and redox-active cerium dioxide (CeO 2 ) nanoparticles (NPs) are promising in the field of biomedical interests because they can combine the ability of magnetic NPs to heat up in an alternating magnetic field (AMF) with the pronounced antioxidant activity of CeO 2 NPs. Thus, this report is devoted to Fe 3 O 4 /CeO 2 nanocomposites (NCPs) synthesized by precipitation of the computed amount of "CeO 2 -shell" on the surface of prefabricated Fe 3 O 4 NPs. The X-ray diffraction, X-ray photoelectron spectroscopy, and high-resolution transmission electron microscopy data validated the formation of Fe 3 O 4 /CeO 2 "core/shell"-like NCPs, in which ultrafine CeO 2 NPs with an average size of approximately 3-3.5 nm neatly surround Fe 3 O 4 NPs. The presence of a CeO 2 "shell" significantly increased the stability of Fe 3 O 4 /CeO 2 NCPs in aqueous suspensions: Fe 3 O 4 /CeO 2 NCPs with "shell thicknesses" of 5 and 7 nm formed highly stable magnetic fluids with ζ-potential values of >+30 mV. The magnetization values of Fe 3 O 4 /CeO 2 NCPs decreased with a growing CeO 2 "shell" around the magnetic NPs; however, the resulting composites retained the ability to heat efficiently in an AMF. The presence of a CeO 2 "shell" generates a possibility to precisely regulate tuning of the maximum heating temperature of magnetic NCPs in the 42-50 °C range and stabilize it after a certain time of exposure to an AMF by changing the thickness of the "CeO 2 -shell". A great improvement was observed in both antioxidant and antiamyloidogenic activities. It was found that inhibition of insulin amyloid formation, expressed in IC 50 concentration, using NCPs with a "shell thickness" of 7 nm was approximately 10 times lower compared to that of pure CeO 2 . For these NCPs, more than 2 times higher superoxide dismutase-like activity was observed. The coupling of both Fe 3 O 4 and CeO 2 results in higher bioactivity than either of them individually, probably due to a synergistic catalytic mechanism.

Published

2023

13. Surface-modified cerium dioxide nanoparticles with improved anti-amyloid and preserved nanozymatic activity.

Author

Garcarova I, Valusova E, Shlapa Y, Belous A, Musatov A, and Siposova K

Subjects

Amyloid, Amyloidogenic Proteins, Nanoparticles chemistry, Cerium pharmacology, Cerium chemistry, Insulins

Abstract

Cerium dioxide nanoparticles (CeO 2 NPs) are used increasingly in nanotechnology and particularly in biotechnology and bioresearch. Thus, CeO 2 NPs have been successfully tested in vitro as a potential therapeutic agent for various pathologies associated with oxidative stress, including the formation of protein amyloid aggregates. In this study, to increase the anti-amyloidogenic efficiency and preserve the antioxidant potential, the surface of the synthesized CeO 2 NPs is modified with a nonionic, sugar-based surfactant, dodecyl maltoside (DDM), which is known for its high anti-amyloidogenic activity and biocompatibility. Dynamic light scattering and Fourier transform infrared spectroscopy demonstrated successful modification by DDM. The apparent hydrodynamic diameters of CeO 2 NPs and DDM-modified NPs (CeO 2 @DDM NPs) are found to be ⁓180 nm and ⁓260 nm, respectively. A positive zeta potential value of + 30.5 mV for CeO 2 NPs and + 22.5 mV for CeO 2 @DDM NPs suggest sufficient stability and good dispersion of NPs in an aqueous solution. A combination of Thioflavin T fluorescence analysis and atomic force microscopy is used to assess the effect of nanoparticles on the formation of insulin amyloid fibrils. Results show that the fibrillization of insulin is inhibited by both, naked and modified NPs in a dose-dependent manner. However, while the IC 50 of naked NPs is found to be ∼270 ± 13 µg/mL, the surface-modified NPs are 50% more efficient with IC 50 equaled to 135 ± 7 µg/mL. In addition, both, the naked CeO 2 NPs and DDM-modified NPs displayed an antioxidant activity expressed as oxidase-, catalase- and SOD-like activity. Therefore, the resulting nanosized material is very well suited to prove or disprove the hypothesis that oxidative stress plays a role in the formation of amyloid fibrils., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper, OR I declare no ethical issues., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

14. Micelle Formation in Aqueous Solutions of the Cholesterol-Based Detergent Chobimalt Studied by Small-Angle Scattering.

Author

Artykulnyi OP, Siposova K, Kriechbaum M, Musatov A, Almásy L, and Petrenko V

Subjects

Surface-Active Agents chemistry, Water chemistry, Cholesterol, Solutions, Detergents chemistry, Micelles

Abstract

The structure and interaction parameters of the water-soluble cholesterol-based surfactant, Chobimalt, are investigated by small-angle neutron and X-ray scattering techniques. The obtained data are analyzed by a model-independent approach applying the inverse Fourier transformation procedure as well as considering a model fitting procedure, using a core-shell form factor and hard-sphere structure factor. The analysis reveals the formation of the polydisperse spherical or moderately elongated ellipsoidal shapes of the Chobimalt micelles with the hard sphere interaction in the studied concentration range 0.17-6.88 mM. The aggregation numbers are estimated from the micelle geometry observed by small-angle scattering and are found to be in the range of 200-300. The low pH of the solution does not have a noticeable effect on the structure of the Chobimalt micelles. The critical micelle concentrations of the synthetic surfactant Chobimalt in water and in H 2 O-HCl solutions were obtained according to fluorescence measurements as ~3 μM and ~2.5 μM, respectively. In-depth knowledge of the basic structural properties of the detergent micelles is necessary for further applications in bioscience and biotechnology.

Published

2023

15. Cerium dioxide nanoparticles synthesized via precipitation at constant pH: Synthesis, physical-chemical and antioxidant properties.

Author

Shlapa Y, Solopan S, Sarnatskaya V, Siposova K, Garcarova I, Veltruska K, Timashkov I, Lykhova O, Kolesnik D, Musatov A, Nikolaev V, and Belous A

Subjects

Antioxidants pharmacology, Hydrogen-Ion Concentration, Cerium chemistry, Nanoparticles chemistry, Metal Nanoparticles chemistry

Abstract

Cerium oxide nanoparticles (CeO 2 NPs) are well known for their application in various fields of industry, as well as in biology and medicine. Knowledge of synthesis schemes, physicochemical and morphological features of nanoscale CeO 2 is important for assessing their antioxidant behavior and understanding the mechanism of oxidative stress and its consequences. The choice of the method of synthesis should be based on the possibility to choose the conditions and parameters for obtaining CeO 2 with controlled dimensions and a ratio of Се 3+ /Се 4+ on their surface. In this study, CeO 2 NPs are synthesized by precipitation in mixed water-alcohol solutions at constant pH = 9. The properties of obtained NPs are studied using various methods of physical-chemical characterization such as X-ray diffraction, X-ray photoelectron spectroscopy, transmission electron microscopy, and dynamic light scattering. The size of CeO 2 NPs varied from 14 to 4.2 nm with increasing alcohol concentration, while the effect of constant pH during synthesis on the morphology of the particles was insignificant. The synthesized nanoparticles form highly stable aqueous suspensions since their zeta-potential is higher than + 40 mV. It is found that the ability of CeO 2 NPs to self-stabilize is associated with the presence of hydrated Ce 4+ ions on their surface. In vitro biological studies have shown that, regardless of particle size, CeO 2 NPs have antioxidant potential, but smaller NPs with a higher percentage of Ce 3+ on the surface had a more effective antioxidant effect. In addition, the size-depended activity of CeO 2 NPs to inhibit the amyloid formation of insulin is demonstrated., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

16. Destruction of Lysozyme Amyloid Fibrils Induced by Magnetoferritin and Reconstructed Ferritin.

Author

Gombos J, Balejcikova L, Kopcansky P, Batkova M, Siposova K, Kovac J, Zolochevska K, Safarik I, Lokajova A, Garamus VM, Dobrota D, and Strbak O

Subjects

Ferritins, Iron metabolism, Amyloid metabolism, Muramidase chemistry

Abstract

Neurodegenerative disorders, including Alzheimer's disease (AD), Parkinson's disease (PD), or systemic amyloidosis, are characterized by the specific protein transformation from the native state to stable insoluble deposits, e.g., amyloid plaques. The design of potential therapeutic agents and drugs focuses on the destabilization of the bonds in their beta-rich structures. Surprisingly, ferritin derivatives have recently been proposed to destabilize fibril structures. Using atomic force microscopy (AFM) and fluorescence spectrophotometry, we confirmed the destructive effect of reconstructed ferritin (RF) and magnetoferritin (MF) on lysosome amyloid fibrils (LAF). The presence of iron was shown to be the main factor responsible for the destruction of LAF. Moreover, we found that the interaction of RF and MF with LAF caused a significant increase in the release of potentially harmful ferrous ions. Zeta potential and UV spectroscopic measurements of LAF and ferritin derivative mixtures revealed a considerable difference in RF compared to MF. Our results contribute to a better understanding of the mechanism of fibril destabilization by ferritin-like proteins. From this point of view, ferritin derivatives seem to have a dual effect: therapeutic (fibril destruction) and adverse (oxidative stress initiated by increased Fe 2+ release). Thus, ferritins may play a significant role in various future biomedical applications.

Published

2022

17. The intriguing dose-dependent effect of selected amphiphilic compounds on insulin amyloid aggregation: Focus on a cholesterol-based detergent, Chobimalt.

Author

Siposova K, Petrenko VI, Garcarova I, Sedlakova D, Almásy L, Kyzyma OA, Kriechbaum M, and Musatov A

Abstract

The amyloidogenic self-assembly of many peptides and proteins largely depends on external conditions. Among amyloid-prone proteins, insulin attracts attention because of its physiological and therapeutic importance. In the present work, the amyloid aggregation of insulin is studied in the presence of cholesterol-based detergent, Chobimalt. The strategy to elucidate the Chobimalt-induced effect on insulin fibrillogenesis is based on performing the concentration- and time-dependent analysis using a combination of different experimental techniques, such as ThT fluorescence assay, CD, AFM, SANS, and SAXS. While at the lowest Chobimalt concentration (0.1 µM; insulin to Chobimalt molar ratio of 1:0.004) the formation of insulin fibrils was not affected, the gradual increase of Chobimalt concentration (up to 100 µM; molar ratio of 1:4) led to a significant increase in ThT fluorescence, and the maximal ThT fluorescence was 3-4-fold higher than the control insulin fibril's ThT fluorescence intensity. Kinetic studies confirm the dose-dependent experimental results. Depending on the concentration of Chobimalt, either (i) no effect is observed, or (ii) significantly, ∼10-times prolonged lag-phases accompanied by the substantial, ∼ 3-fold higher relative ThT fluorescence intensities at the steady-state phase are recorded. In addition, at certain concentrations of Chobimalt, changes in the elongation-phase are noticed. An increase in the Chobimalt concentrations also triggers the formation of insulin fibrils with sharply altered morphological appearance. The fibrils appear to be more flexible and wavy-like with a tendency to form circles. SANS and SAXS data also revealed the morphology changes of amyloid fibrils in the presence of Chobimalt. Amyloid aggregation requires the formation of unfolded intermediates, which subsequently generate amyloidogenic nuclei. We hypothesize that the different morphology of the formed insulin fibrils is the result of the gradual binding of Chobimalt to different binding sites on unfolded insulin. A similar explanation and the existence of such binding sites with different binding energies was shown previously for the nonionic detergent. Thus, the data also emphasize the importance of a protein partially-unfolded state which undergoes the process of fibrils formation; i.e., certain experimental conditions or the presence of additives may dramatically change not only kinetics but also the morphology of fibrillar aggregates., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Siposova, Petrenko, Garcarova, Sedlakova, Almásy, Kyzyma, Kriechbaum and Musatov.)

Published

2022

18. Dual-Functional Antioxidant and Antiamyloid Cerium Oxide Nanoparticles Fabricated by Controlled Synthesis in Water-Alcohol Solutions.

Author

Siposova K, Huntosova V, Garcarova I, Shlapa Y, Timashkov I, Belous A, and Musatov A

Abstract

Oxidative stress is known to be associated with a number of degenerative diseases. A better knowledge of the interplay between oxidative stress and amyloidogenesis is crucial for the understanding of both, aging and age-related neurodegenerative diseases. Cerium dioxide nanoparticles (CeO 2 NPs, nanoceria) due to their remarkable properties are perspective nanomaterials in the study of the processes accompanying oxidative-stress-related diseases, including amyloid-related pathologies. In the present work, we analyze the effects of CeO 2 NPs of different sizes and Ce 4+ /Ce 3+ ratios on the fibrillogenesis of insulin, SOD-like enzymatic activity, oxidative stress, biocompatibility, and cell metabolic activity. CeO 2 NPs (marked as Ce1-Ce5) with controlled physical-chemical parameters, such as different sizes and various Ce 4+ /Ce 3+ ratios, are synthesized by precipitation in water-alcohol solutions. All synthesized NPs are monodispersed and exhibit good stability in aqueous suspensions. ThT and ANS fluorescence assays and AFM are applied to monitor the insulin amyloid aggregation and antiamyloid aggregation activity of CeO 2 NPs. The analyzed Ce1-Ce5 nanoparticles strongly inhibit the formation of insulin amyloid aggregates in vitro. The bioactivity is analyzed using SOD and MTT assays, Western blot, fluorescence microscopy, and flow cytometry. The antioxidative effects and bioactivity of nanoparticles are size- or valence-dependent. CeO 2 NPs show great potential benefits for studying the interplay between oxidative stress and amyloid-related diseases, and can be used for verification of the role of oxidative stress in amyloid-related diseases.

Published

2022

19. Monitoring the surface tension by the pendant drop technique for detection of insulin fibrillogenesis.

Author

Siposova K, Sedlakova D, and Musatov A

Subjects

Insulin, Regular, Human, Kinetics, Surface Tension, Amyloid, Insulin

Abstract

Monitoring the aggregation of amyloid-prone proteins is critical for understanding the mechanism of amyloid fibril formation. Insulin, when dissolved in low pH buffer, has a surface tension of 61-64 mN m -1 , as measured by the pendant drop technique. Formation of insulin amyloid fibrils resulted in the increase of the surface tension values up to 71.2-73.5 mN m -1 . The kinetics of fibril formation and fibril morphology were validated by ThT fluorescence and AFM, respectively. The results demonstrate that monitoring the surface tension by the pendant drop technique is a valuable tool for the detection of insulin amyloid aggregation.

Published

2021

20. Structural and physical-chemical characterization of redox active CeO 2 nanoparticles synthesized by precipitation in water-alcohol solutions.

Author

Shlapa Y, Timashkov I, Veltruska K, Siposova K, Garcarova I, Musatov A, Solopan S, Kubovcikova M, and Belous A

Abstract

A set of cerium dioxide nanoparticles (CeO 2 NPs) was synthesized by precipitation in water-alcohol solutions under conditions when the physical-chemical parameters of synthesized NPs were controlled by changing the ratio of the reaction components. The size of CeO 2 NPs is controlled largely by the dielectric constant of the reaction solution. An increase of the percentage of Ce 3+ ions at the surface was observed with a concomitant reduction of the NP sizes. All synthesized CeO 2 NPs possess relatively high positive values of zeta-potential ( ζ  > 40 mV) suggesting good stability in aqueous suspensions. Analysis of the valence- and size-dependent rate of hydrogen peroxide decomposition revealed that catalase/peroxidase-like activity of CeO 2 NPs is higher at a low percentage of Ce 3+ at the NP surface. In contrast, smaller CeO 2 NPs with a higher percentage of Ce 3+ at the NP surface display a higher oxidase-like activity., (© 2021 IOP Publishing Ltd.)

Published

2021

21. Development of multifunctional nanocomposites for controlled drug delivery and hyperthermia.

Author

Hovhannisyan V, Siposova K, Musatov A, and Chen SJ

Subjects

Delayed-Action Preparations chemical synthesis, Delayed-Action Preparations chemistry, Hyperthermia, Induced, Nanocomposites chemistry, Zeolites chemistry

Abstract

Magnetic nano/micro-particles based on clinoptilolite-type of natural zeolite (CZ) were fabricated and were expected to act as carriers for controlled drug delivery/release, imaging and local heating in biological systems. Adsorption of rhodamine B, sulfonated aluminum phthalocyanine and hypericin by magnetic CZ nano/micro-particles was investigated, as was the release of hypericin. Using an alternating magnetic field, local temperature increase by 10 °C in animal tissue with injected magnetic CZ particles was demonstrated. In addition, the CZ-based particles have been found to exhibit an anti-amyloidogenic effect on the amyloid aggregation of insulin and lysozyme in a dose- and temperature-dependent manner. Therefore, the mesoporous structure of CZ particles provided a unique platform for preparation of multifunctional magnetic and optical probes suitable for optical imaging, MRI, thermo- and phototherapy and as effective containers for controlled drug delivery. We concluded that magnetic CZ nano/micro-particles could be evaluated for further application in cancer hyperthermia therapy and as anti-amyloidogenic agents.

Published

2021

22. Complementary experimental and computational analysis of the effects of non-ionic detergents and phospholipids on insulin amyloid aggregation.

Author

Siposova K, Kozar T, Stupakova M, and Musatov A

Subjects

Amyloid, Amyloidogenic Proteins, Dimyristoylphosphatidylcholine, Insulin, Detergents, Phospholipids

Abstract

Amphiphilic compounds, both detergents and lipids, are important tools for in vitro analysis of water-soluble and integral membrane proteins. A key question is whether these two groups of amphiphilic molecules use the same pathway to affect structural and functional integrity of proteins. In the present study, we tested the effect of non-ionic detergent dodecyl maltoside (DDM), two phospholipids, 1,2-dimyristoyl-sn-glycero-3- phosphocholine (DMPC), 1,2-dihexanoyl-sn-glycero-3-phosphocholine (DHPC), and the detergent-phospholipid mixtures on insulin amyloidogenesis in vitro. Amyloidogenesis of insulin is significantly affected by DDM in a time-and dose-dependent manner, but only slightly affected by either of phospholipids. Addition of DHPC or DMPC to detergent does not alter the inhibiting pattern, suggesting that DDM preferably binds to insulin. The molecular modeling revealed that DDM and the phospholipids occupy equivalent binding sites. DDM, due to the presence of maltose with several oxygen atoms (hydroxylic, glycosidic and ring) is involved in more hydrogen bonds than DHPC or DMPC. Hydrophobic interactions are important factors to stabilize both, DDM and phospholipids in their binding sites. Our results indicate that certain detergents (applying DDM as an example) and selected phospholipids are not always interchangeable in their use to investigate the effect of amphiphilic compounds on the behavior of amyloid-prone proteins., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

23. Fullerenes as an Effective Amyloid Fibrils Disaggregating Nanomaterial.

Author

Siposova K, Petrenko VI, Ivankov OI, Musatov A, Bulavin LA, Avdeev MV, and Kyzyma OA

Subjects

Amyloid beta-Peptides metabolism, Animals, Chickens, Fullerenes chemistry, Humans, Particle Size, Protein Aggregates drug effects, Surface Properties, Amyloid beta-Peptides antagonists & inhibitors, Fullerenes pharmacology, Nanostructures chemistry

Abstract

Nowadays, determining the disassembly mechanism of amyloids under nanomaterials action is a crucial issue for their successful future use in therapy of neurodegenerative and overall amyloid-related diseases. In this study, the antiamyloid disassembly activity of fullerenes C 60 and C 70 dispersed in 1-methyl-2-pyrrolidinone (NMP) toward amyloid fibrils preformed from lysozyme and insulin was investigated using a combination of different experimental techniques. Thioflavin T fluorescence assay and atomic force microscopy were applied for monitoring of disaggregation activity of fullerenes. It was demonstrated that both types of fullerene-based complexes are very effective in disassembling preformed fibrils, and characterized by the low apparent half-maximal disaggregation concentration (DC 50 ) in the range of ∼22-30 μg mL -1 . Small-angle neutron scattering was employed to monitor the different stages of the disassembly process with respect to the size and morphology of the aggregates. Based on the obtained results, a possible disassembly mechanism for amyloid fibrils interacting with fullerene/NMP complexes was proposed. The study is a principal step in understanding of the fullerenes destruction mechanism of the protein amyloids, as well as providing valuable information on how macromolecules can be engineered to disassemble unwanted amyloid aggregates by different mechanisms.

Published

2020

24. Advances in the Study of Cerium Oxide Nanoparticles: New Insights into Antiamyloidogenic Activity.

Author

Siposova K, Huntosova V, Shlapa Y, Lenkavska L, Macajova M, Belous A, and Musatov A

Abstract

There seems to be general agreement that oxidative stress is involved in many pathological conditions including Parkinson's, Alzheimer's, and other neurodegenerative diseases, and overall aging. Cerium oxide nanoparticles, also known as nanoceria (CeO 2 -NPs), have shown promise as catalytic antioxidants, based on their ability to switch between Ce 3+ and Ce 4+ valence states. In the present work we have synthesized and characterized CeO 2 -NPs, examined the effect of CeO 2 -NPs on amyloidogenesis of insulin, and analyzed the impact of CeO 2 -NPs on oxidative stress and biocompatibility in vitro in three types of invasive cancer cells, and in vivo in the preclinical model of the chorioallantoic membrane (CAM) of quail embryos. The different experimental techniques revealed a high stability and homogeneity of the "naked" CeO 2 -NPs synthesized by precipitation from a reversal microemulsion. The CeO 2 -NPs were 5-6 nm in diameter (TEM) and monodispersed and have a ζ +46.9 mV ζ potential in Milli-Q water. We demonstrated for the first time that CeO 2 -NPs affect insulin fibrillation in a dose-dependent manner. The inhibiting, IC 50 , and disassembling, DC 50 , concentrations were calculated to be ∼100 ± 3.5 and ∼200 ± 5.5 μg/mL, respectively. Furthermore, CeO 2 -NPs demonstrated reliable biocompatibility and sufficient uptake by glioma and breast cancer cells. The presence of a high concentration of CeO 2 -NPs within the cells resulted only in local changes in metabolic activity and generation of oxidative stress at a low level. Moreover, high biocompatibility with CeO 2 -NPs was shown in vivo in the CAM.

Published

2019

25. Inhibition of amyloid fibril formation and disassembly of pre-formed fibrils by natural polyphenol rottlerin.

Author

Siposova K, Kozar T, Huntosova V, Tomkova S, and Musatov A

Subjects

Acetophenones pharmacology, Animals, Benzopyrans pharmacology, Catechin analogs & derivatives, Catechin chemistry, Cell Line, Tumor, Cell Survival drug effects, Curcumin chemistry, Insulin chemistry, Mice, Models, Molecular, Muramidase chemistry, Acetophenones chemistry, Amyloid beta-Peptides chemistry, Benzopyrans chemistry, Peptide Fragments chemistry

Abstract

Natural polyphenols, curcumin, rottlerin and EGCG were selected for initial computational modeling of protein-ligand interaction patterns. The docking calculations demonstrated that these polyphenols can easily adjust their conformational shape to fit well into the binding sites of amyloidogenic proteins. The experimental part of the study focused on the effect of rottlerin on fibrillation of three distinct amyloidogenic proteins, namely insulin, lysozyme and Aβ 1-40 peptide. Different experimental protocols such as fluorescence spectroscopy, circular dichroism and atomic force microscopy, demonstrated that amyloid fibril formation of any of the three proteins is inhibited by low micromolar rottlerin concentrations. Most likely, the inhibition of amyloid formation proceeded via interaction of rottlerin with amyloidogenic regions of the studied proteins. Moreover, rottlerin was also effective in pre-formed fibrils disassembly, suggesting that interactions of rottlerin with fibrils were capable to interrupt the fibril-stabilizing bonds of β-sheets. The apparent IC 50 and DC 50 values were calculated in the range of 1.3-36.4 μM and 15.6-25.8 μM, respectively. The strongest inhibiting/disassembling effect of rottlerin was observed on Aβ 1-40 peptide. The cytotoxicity assay performed on the Neuro 2a cells indicated time-dependent cell morphology changes but rottlerin affected the cell viability only at concentration above 50 μM. The results of this study suggest that chemical modifications on rottlerin could be tested in the future as a promising strategy for the modulation of amyloidogenic proteins aggregation., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

26. Dual effect of non-ionic detergent Triton X-100 on insulin amyloid formation.

Author

Siposova K, Sedlak E, Kozar T, Nemergut M, and Musatov A

Subjects

Amyloid metabolism, Amyloid ultrastructure, Amyloidogenic Proteins metabolism, Benzothiazoles chemistry, Binding Sites, Fluorescent Dyes chemistry, Humans, Hydrogen-Ion Concentration, Insulin metabolism, Kinetics, Microscopy, Atomic Force, Molecular Docking Simulation, Octoxynol metabolism, Protein Binding, Protein Interaction Domains and Motifs, Protein Multimerization, Protein Structure, Secondary, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Spectrometry, Fluorescence, Thermodynamics, Amyloid chemistry, Amyloidogenic Proteins chemistry, Insulin chemistry, Octoxynol chemistry, Protein Aggregates

Abstract

Atomic force microscopy, Thioflavin T (ThT) fluorescence assay, circular dichroism spectroscopy, differential scanning calorimetry, and molecular modeling techniques have been employed to investigate the amyloid aggregation of insulin in the presence of non-ionic detergent, Triton X-100 (TX-100). In contrast to recently described inhibition of lysozyme amyloid formation by non-ionic detergents (Siposova, 2017), the amyloid aggregation of insulin in the presence of sub-micellar TX-100 concentration exhibits two dissimilar phases. The first, inhibition phase, is observed at the protein to detergent molar ratio of 1:0.1 to 1:1. During this phase, the insulin amyloid fibril formation is inhibited by TX-100 up to ∼60%. The second, "morphological" phase, is observed at increasing detergent concentration, corresponding to protein:detergent molar ratio of ∼1:1 - 1:10. Under these conditions a significant increase of the steady-state ThT fluorescence intensities and a dramatically changed morphology of the insulin fibrils were observed. Increasing of the detergent concentration above the CMC led to complete inhibition of amyloidogenesis. Analysis of the experimental and molecular modeling results suggests an existence of up to six TX-100 binding sites within dimer of insulin with different binding energy. The physiological relevance of the results is discussed., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

27. Fe(II) formation after interaction of the amyloid β-peptide with iron-storage protein ferritin.

Author

Balejcikova L, Siposova K, Kopcansky P, and Safarik I

Subjects

Amyloid beta-Peptides chemistry, Ferritins chemistry, Humans, Oxidation-Reduction, Amyloid chemistry, Amyloid beta-Peptides metabolism, Ferritins metabolism, Iron metabolism

Abstract

The interaction of amyloid β-peptide (Aβ) with the iron-storage protein ferritin was studied in vitro. We have shown that Aβ during fibril formation process is able to reduce Fe(III) from the ferritin core (ferrihydrite) to Fe(II). The Aβ-mediated Fe(III) reduction yielded a two-times-higher concentration of free Fe(II) than the spontaneous formation of Fe(II) by the ferritin itself. We suggest that Aβ can also act as a ferritin-specific metallochaperone-like molecule capturing Fe(III) from the ferritin ferrihydrite core. Our observation may partially explain the formation of Fe(II)-containing minerals in human brains suffering by neurodegenerative diseases.

Published

2018

28. In vitro study on potential pharmacological activity of curcumin analogues and their copper complexes.

Author

Ferrari E, Benassi R, Saladini M, Orteca G, Gazova Z, and Siposova K

Subjects

Alzheimer Disease drug therapy, Amyloid beta-Peptides metabolism, Antioxidants chemistry, Coordination Complexes chemistry, Copper pharmacology, Curcumin chemistry, DNA chemistry, DNA metabolism, Drug Evaluation, Preclinical methods, Free Radical Scavengers chemistry, Free Radical Scavengers pharmacology, Humans, Inhibitory Concentration 50, Microscopy, Atomic Force, Molecular Structure, Peptide Fragments metabolism, Structure-Activity Relationship, Antioxidants pharmacology, Coordination Complexes pharmacology, Copper chemistry, Curcumin analogs & derivatives

Abstract

Curcumin and its derivatives have attracted great interest in the prevention and treatment of Alzheimer's disease, thanks both to the ability to hinder the formation of amyloid-beta (Aβ) aggregates and the ability to bind Cu (II) ion. In this article, we explore the ability of curcumin derivatives of K2T series to affect amyloid Aβ 1-40 aggregation. These derivatives were obtained by introducing the t-butyl ester group through a methylenic spacer on the central carbon atom of the β-diketo moiety of curcumin frame. The studied curcuminoids were demonstrated to inhibit Aβ 1-40 fibrillization at substoichiometric concentrations with IC 50 value near that of curcumin. In addition, the antioxidant properties and DNA interaction of their Cu(II) complexes is evaluated. The structure of Cu(II)-K2T31 complex is also proposed on the basis of DFT calculation., (© 2016 John Wiley & Sons A/S.)

Published

2017

29. Multi-target-directed therapeutic potential of 7-methoxytacrine-adamantylamine heterodimers in the Alzheimer's disease treatment.

Author

Gazova Z, Soukup O, Sepsova V, Siposova K, Drtinova L, Jost P, Spilovska K, Korabecny J, Nepovimova E, Fedunova D, Horak M, Kaniakova M, Wang ZJ, Hamouda AK, and Kuca K

Subjects

Alzheimer Disease metabolism, Amantadine analogs & derivatives, Amyloid Precursor Protein Secretases metabolism, Amyloid beta-Peptides metabolism, Animals, CHO Cells, Cholinesterases metabolism, Cricetulus, Dimerization, Enzyme Inhibitors chemistry, HEK293 Cells, Humans, Molecular Targeted Therapy, Receptor, Muscarinic M1 antagonists & inhibitors, Receptor, Muscarinic M1 metabolism, Receptors, Cholinergic metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Tacrine chemistry, Tacrine pharmacology, Xenopus, Alzheimer Disease drug therapy, Amantadine pharmacology, Amyloid Precursor Protein Secretases antagonists & inhibitors, Amyloid beta-Peptides antagonists & inhibitors, Enzyme Inhibitors pharmacology, Tacrine analogs & derivatives

Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder and currently there is no efficient treatment. The classic drug-design strategy based on the "one-molecule-one-target" paradigm was found to be ineffective in the case of multifactorial diseases like AD. A novel multi-target-directed ligand strategy based on the assumption that a single compound consisting of two or more distinct pharmacophores is able to hit multiple targets has been proposed as promising. Herein, we investigated 7-methoxytacrine - memantine heterodimers developed with respect to the multi-target-directed ligand theory. The spectroscopic, microscopic and cell culture methods were used for systematic investigation of the interference of the heterodimers with β-secretase (BACE1) activity, Aβ peptide amyloid fibrillization (amyloid theory) and interaction with M1 subtype of muscarinic (mAChRs), nicotinic (nAChRs) acetylcholine receptors (cholinergic theory) and N-methyl-d-aspartate receptors (NMDA) (glutamatergic theory). The drug-like properties of selected compounds have been evaluated from the point of view of blood-brain barrier penetration and cell proliferation. We have confirmed the multipotent effect of novel series of compounds. They inhibited effectively Aβ peptide amyloid fibrillization and affected the BACE1 activity. Moreover, they have AChE inhibitory potency but they could not potentiate cholinergic transmission via direct interaction with cholinergic receptors. All compounds were reported to act as an antagonist of both M1 muscarinic and muscle-type nicotinic receptors. We have found that 7-methoxytacrine - memantine heterodimers are able to hit multiple targets associated with Alzheimer's disease and thus, have a potential clinical impact for slowing or blocking the neurodegenerative process related to this disease., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

30. Interaction of nonionic detergents with the specific sites of lysozyme amyloidogenic region - inhibition of amyloid fibrillization.

Author

Siposova K, Kozar T, and Musatov A

Subjects

Animals, Benzothiazoles, Binding Sites, Chickens, Circular Dichroism, Dose-Response Relationship, Drug, Egg White chemistry, Glucosides chemistry, Humans, Hydrogen-Ion Concentration, Inhibitory Concentration 50, Kinetics, Light, Micelles, Microscopy, Atomic Force, Models, Molecular, Octoxynol chemistry, Protein Conformation, Scattering, Radiation, Spectrophotometry, Ultraviolet, Surface Properties, Temperature, Thiazoles chemistry, Amyloid chemistry, Detergents chemistry, Muramidase chemistry

Abstract

Two nonionic detergents, Triton X-100 (TX-100) and n-dodecyl-β-d-maltoside (DDM) were tested for their ability to affect lysozyme amyloid aggregation. We have demonstrated that fibrillization of lysozyme is completely inhibited by low sub-micellar concentrations of both of these detergents. The apparent IC 50 values were calculated to be 22μM and 26μM for TX-100 and DDM, respectively. The detergent/protein ratio is not the only parameter controlling inhibition. The precise timing of the detergent addition was found to be also crucial. It appears that the primary inhibitory activity of detergents resulted from inhibition of nuclei formation, in addition to inhibition of fibril polymerization at the early stage of protofibrils growth. The docking study revealed that Asn-59, Trp-63 and Ala-107, all present within the lysozyme amyloidogenic region, were involved in the interaction with both detergents. In addition, TX-100 also interacted with Gln-57 and Asp-103 within lysozyme. Moreover, based on our computational results, TX-100 bridges the Gln-57 and Ala-107 amino acids of the amyloidogenic segment of lysozyme and therefore inhibits more effectively the amyloid fibril formation. Along these lines, the knowledge gained from our study indicates that the detergents or their derivatives may be applicable as a promising strategy for the modulation of lysozyme protein aggregation., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

31. On the adsorption of magnetite nanoparticles on lysozyme amyloid fibrils.

Author

Majorosova J, Petrenko VI, Siposova K, Timko M, Tomasovicova N, Garamus VM, Koralewski M, Avdeev MV, Leszczynski B, Jurga S, Gazova Z, Hayryan S, Hu CK, and Kopcansky P

Subjects

Adsorption, Amyloid metabolism, Animals, Chickens, Female, Microscopy, Electron, Transmission, Muramidase metabolism, Protein Conformation, Scattering, Small Angle, Static Electricity, X-Ray Diffraction, Amyloid chemistry, Magnetite Nanoparticles chemistry, Muramidase chemistry

Abstract

An adsorption of magnetic nanoparticles (MNP) from electrostatically stabilized aqueous ferrofluids on amyloid fibrils of hen egg white lysozyme (HEWL) in 2mg/mL acidic dispersions have been detected for the MNP concentration range of 0.01-0.1vol.%. The association of the MNP with amyloid fibrils has been characterized by transmission electron microscopy (TEM), small-angle X-ray scattering (SAXS) and magneto-optical measurements. It has been observed that the extent of adsorption is determined by the MNP concentration. When increasing the MNP concentration the formed aggregates of magnetic particles repeat the general rod-like structure of the fibrils. The effect is not observed when MNP are mixed with the solution of lysozyme monomers. The adsorption has been investigated with the aim to clarify previously found disaggregation activity of MNP in amyloid fibrils dispersions and to get deeper insight into interaction processes between amyloids and MNP. The observed effect is also discussed with respect to potential applications for ordering lysozyme amyloid fibrils in a liquid crystal phase under external magnetic fields., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

32. Functional and structural evaluation of bovine heart cytochrome c oxidase incorporated into bicelles.

Author

Musatov A, Siposova K, Kubovcikova M, Lysakova V, and Varhac R

Subjects

Animals, Cattle, Detergents chemistry, Dimyristoylphosphatidylcholine chemistry, Lipid Bilayers chemistry, Micelles, Phosphatidylcholines chemistry, Electron Transport Complex IV chemistry

Abstract

Bilayered long- and short-chain phospholipid assemblies, known as bicelles, have been widely used as model membranes in biological studies. However, to date, there has been no demonstration of structural or functional viability for the fundamental mitochondrial electron transport complexes reconstituted into or interacting with bicelles. In the present work, bicelles were formed from the mixture of long- and short-chain phospholipids, specifically 14:0 and 6:0 phosphatidylcholines (1,2-dimyristoyl-sn-glycero-3-phosphocholine, (DMPC) and 1,2-dihexanoyl-sn-glycero-3-phosphocholine, (DHPC)). Isolated from bovine heart, cytochrome c oxidase was successfully incorporated into bicelles. Bicelles and cytochrome c oxidase incorporated into bicelles ("proteobicelles") were characterized by absorption spectroscopy, dynamic light scattering, atomic force microscopy, sedimentation velocity and differential scanning calorimetry. It was demonstrated that at total concentration of phospholipids CL = 24 mM and the molar ratio (q) of long-chain DMPC over short-chain DHPC equal to 0.4, the diameter of bicelles formed at neutral pH is in the range of 30-60 nm with the thickness of bicelles of about 4 nm. Adding cytochrome c oxidase to bicelles unified the size of the resulting proteobicelles to about 160 nm. Cytochrome c oxidase in bicelles was fully reducible by artificial donors of electrons, exhibited "normal" reaction with external ligands, and was fully active. Both, sedimentation velocity analysis and temperature-induced denaturation indicated that enzyme in bicelles is monomeric. We concluded that cytochrome c oxidase in bicelles maintains its structural and functional integrity, and that bicelles can be used for more comprehensive investigation of cytochrome c oxidase and most likely other mitochondrial electron transfer complexes., (Copyright © 2015 Elsevier B.V. and Société Française de Biochimie et Biologie Moléculaire (SFBBM). All rights reserved.)

Published

2016

33. In Silico and in Vitro Study of Binding Affinity of Tripeptides to Amyloid β Fibrils: Implications for Alzheimer's Disease.

Author

Viet MH, Siposova K, Bednarikova Z, Antosova A, Nguyen TT, Gazova Z, and Li MS

Subjects

Amyloid beta-Peptides metabolism, Computer Simulation, Models, Molecular, Oligopeptides metabolism, Protein Binding, Alzheimer Disease metabolism, Amyloid beta-Peptides chemistry, Oligopeptides chemistry

Abstract

Self-assembly of Aβ peptides into amyloid aggregates has been suggested as the major cause of Alzheimer's disease (AD). Nowadays, there is no medication for AD, but experimental data indicate that reversion of the process of amyloid aggregation reduces the symptoms of disease. In this paper, all 8000 tripeptides were studied for their ability to destroy Aβ fibrils. The docking method and the more sophisticated MM-PBSA (molecular mechanics Poisson-Boltzmann surface area) method were employed to calculate the binding affinity and mode of tripeptides to Aβ fibrils. The ability of these peptides to depolymerize Aβ fibrils was also investigated experimentally using atomic force microscopy and fluorescence spectroscopy (Thioflavin T assay). It was shown that tripeptides prefer to bind to hydrophobic regions of 6Aβ9-40 fibrils. Tripeptides WWW, WWP, WPW and PWW were found to be the most potent binders. In vitro experiments showed that tight-binding tripeptides have significant depolymerizing activities and their DC50 values determined from dose-response curves were in micromolar range. The ability of nonbinding (GAM, AAM) and weak-binding (IVL and VLA) tripeptides to destroy Aβ fibrils was negligible. In vitro data of tripeptide depolymerizing activities support the predictions obtained by molecular docking and all-atom simulation methods. Our results suggest that presence of multiple complexes of heterocycles forming by tryptophan and proline residues in tripeptides is crucial for their tight binding to Aβ fibrils as well as for extensive fibril depolymerization. We recommend PWW for further studies as it has the lowest experimental binding constant.

Published

2015

34. Effects of ferrofluid and phytoalexin spirobrassinin on thioflavin-T-based fluorescence in cerebrospinal fluid of the elderly and multiple sclerosis patients.

Author

Kristofikova Z, Gazova Z, Siposova K, Bartos A, Ricny J, Kotoucova J, Sirova J, and Ripova D

Subjects

Adult, Aged, Benzothiazoles, Female, Fluorescence, Fluorescent Dyes analysis, Humans, Male, Middle Aged, Multiple Sclerosis diagnosis, Aging cerebrospinal fluid, Chlorides cerebrospinal fluid, Ferric Compounds cerebrospinal fluid, Ferrous Compounds cerebrospinal fluid, Multiple Sclerosis cerebrospinal fluid, Spiro Compounds cerebrospinal fluid, Thiazoles cerebrospinal fluid

Abstract

It is well known that misfolded peptides/proteins can play a role in processes of normal ageing and in the pathogenesis of many diseases including Alzheimer's disease. Previously, we evaluated samples of cerebrospinal fluid from patients with Alzheimer's disease and multiple sclerosis by means of thioflavin-T-based fluorescence. We observed attenuated effects of magnetite nanoparticles operated via anti-aggregation actions on peptides/proteins from patients with Alzheimer's disease but not from those with multiple sclerosis when compared to age-related controls. In this study, we have evaluated the in vitro effects of anti-aggregation operating ferrofluid and phytoalexin spirobrassinin in the cerebrospinal fluid of patients with multiple sclerosis and Alzheimer's disease. We have found significant differences in native fluorescence (λ excitation = 440 nm, λ emission = 485 nm) of samples among particular groups (young controls < multiple sclerosis, Alzheimer's disease < old controls). Differences among groups were observed also in thioflavin-T-based fluorescence (young controls = multiple sclerosis < Alzheimer's disease < old controls) and the most marked change from native to thioflavin-T-based fluorescence was found in young controls (28-40 years old people). Both ferrofluid and spirobrassinin evoked drops in thioflavin-T-based fluorescence; however, ferrofluid was more efficient in old controls (54-75 years old people) and spirobrassinin in multiple sclerosis patients, both compared to young controls. The results are discussed especially in relation to aggregated peptides/proteins and liposoluble fluorescent products of lipid peroxidation. Based on the significant effect of spirobrassinin in vitro, we suggest that spirobrassinin may be of therapeutic value in multiple sclerosis.

Published

2014

35. Polymorphism of hen egg white lysozyme amyloid fibrils influences the cytotoxicity in LLC-PK1 epithelial kidney cells.

Author

Mocanu MM, Ganea C, Siposova K, Filippi A, Demjen E, Marek J, Bednarikova Z, Antosova A, Baran I, and Gazova Z

Subjects

Animals, Apoptosis drug effects, Cell Proliferation drug effects, Cytotoxins chemistry, Cytotoxins toxicity, Epithelial Cells cytology, Hydrogen-Ion Concentration, Necrosis chemically induced, Protein Structure, Secondary, Amyloid chemistry, Amyloid toxicity, Epithelial Cells drug effects, Kidney cytology, Muramidase chemistry, Muramidase toxicity, Protein Multimerization

Abstract

The polymorphism of amyloid fibrils is potentially crucial as it may underlie the natural variability of amyloid diseases and could be important in developing a fuller understanding of the molecular basis of protein deposition disorders. This study examines morphological differences in lysozyme fibrils and the implications of these differences in terms of cytotoxicity. The structural characteristics of amyloid fibrils formed under two different experimental conditions (acidic and neutral) were evaluated using spectroscopic methods, atomic force microscopy and image analysis. Growth curves and apoptotic/necrotic assays were used to determine the cytotoxic effect of fibrils on the LLC-PK1 renal cells. The results reveal that both types of mature lysozyme amyloid fibrils are actively involved in the cytotoxic process, however each exhibit different levels of cytotoxicity. Fibrils formed at acidic pH affect cell growth in a dose-dependent manner, but a threshold-dependent inhibition of cell growth was observed in the case of lysozyme fibrils prepared at neutral pH. Experiments examining the mechanism of the cell death suggest that both types of mature lysozyme fibrils trigger late apoptosis/necrosis at different fibril concentrations. Our findings clearly indicate that the intrinsic differences between amyloid fibrils due to their polymorphism result in different degrees of cytotoxicity., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

36. Attenuation of the insulin amyloid aggregation in presence of Fe3O4-based magnetic fluids.

Author

Siposova K, Bystrenova E, Antosova A, Koneracka M, Zavisova V, Kopcansky P, and Gazova Z

Subjects

Cell Line, Cell Survival drug effects, Ferric Compounds radiation effects, Humans, Lethal Dose 50, Magnetic Fields, Solutions, Amyloid chemistry, Ferric Compounds chemistry, Ferric Compounds toxicity, Fibroblasts cytology, Insulin chemistry

Abstract

Presence of protein amyloid deposits is associated with pathogenesis of amyloid-related diseases. Insulin amyloid aggregates have been reported in a patient with diabetes undergoing treatment by injection of insulin. We have investigated the interference of insulin amyloid aggregation with two Fe3O4-based magnetic fluids. The magnetic fluids are able to inhibit insulin amyloid fibrillization and promote disassembly of amyloid fibrils. The cytotoxic effect of amyloid fibrils is attenuated in presence of magnetic fluids probably due to reduction of the fibrils. We suggest that present findings propose the potential use of Fe3O4-based magnetic fluids as the therapeutic agents targeting insulin-associating amyloidosis.

Published

2013

37. Amyloid aggregation of lysozyme: the synergy study of red wine polyphenols.

Author

Gazova Z, Siposova K, Kurin E, Mučaji P, and Nagy M

Subjects

Amyloid metabolism, Amyloid ultrastructure, Animals, Antioxidants metabolism, Chickens, Models, Molecular, Polyphenols metabolism, Resveratrol, Amyloid antagonists & inhibitors, Caffeic Acids metabolism, Muramidase metabolism, Quercetin metabolism, Stilbenes metabolism, Wine analysis

Abstract

The amyloidoses are diseases associated with nonnative folding of proteins and characterized by the presence of protein amyloid aggregates. The ability of quercetin, resveratrol, caffeic acid, and their equimolar mixtures to affect amyloid aggregation of hen egg white lysozyme in vitro was detected by Thioflavin T fluorescence assay. The anti-amyloid activities of tested polyphenols were evaluated by the median depolymerization concentrations DC50 and median inhibition concentrations IC50 . Single substances are more efficient (by at least one order) in the depolymerization of amyloid aggregates assay than in the inhibition of the amyloid formation with IC50 in 10(-4) to 10(-5) M range. Analyzed mixture samples showed synergic or antagonistic effects in both assays. DC50 values ranged from 10(-5) to 10(-8) M and IC50 from 10(-5) to 10(-9) M, respectively. We observed that certain mixtures of studied polyphenols can synergistically inhibit production of amyloids aggregates and are also effective in depolymerization of the aggregates. Synergic or antagonistic effects of studied mixtures were correlated with protein-small ligand docking studies and AFM results. Differences in these activities could be explained by binding of each polyphenol to a different amino acid sequence within the protein. Our results indicate that synergic/antagonistic anti-amyloid effects of studied mixtures depend on the selective binding of polyphenols to the known amyloidogenic sequences in the lysozyme chain. Our findings of the effective reduction of amyloid aggregation of lysozyme by polyphenol mixtures in vitro are of the utter physiological relevance considering the bioavailability and low toxicity of tested phenols., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013

38. Binding of glyco-acridine derivatives to lysozyme leads to inhibition of amyloid fibrillization.

Author

Vuong QV, Siposova K, Nguyen TT, Antosova A, Balogova L, Drajna L, Imrich J, Li MS, and Gazova Z

Subjects

Acridines chemistry, Amyloid antagonists & inhibitors, Amyloid chemistry, Amyloid beta-Peptides metabolism, Amyloidosis, Humans, Muramidase chemistry, Protein Conformation, Structure-Activity Relationship, Acridines metabolism, Amyloid metabolism, Muramidase metabolism

Abstract

While amyloid-related diseases are at the center of intense research efforts, no feasible cure is currently available for these diseases. The experimental and computational techniques were used to study the ability of glyco-acridines to prevent lysozyme amyloid fibrillization in vitro. Fluorescence spectroscopy and atomic force microscopy have shown that glyco-acridines inhibit amyloid aggregation of lysozyme; the inhibition efficiency characterized by the half-maximal inhibition concentration IC50 was affected by the structure and concentration of the derivative. We next investigated relationship between the binding affinity and the inhibitory activity of the compounds. The semiempirical quantum PM6-DH+ method provided a good correlation pointing to the importance of quantum effects on the binding of glyco-acridine derivatives to lysozyme. The contribution of linkers may be explained by the valence bond theory. Our data provide a basis for the development of new small molecule inhibitors effective in therapy of amyloid-related diseases.

Published

2013

39. 7-Methoxytacrine-adamantylamine heterodimers as cholinesterase inhibitors in Alzheimer's disease treatment--synthesis, biological evaluation and molecular modeling studies.

Author

Spilovska K, Korabecny J, Kral J, Horova A, Musilek K, Soukup O, Drtinova L, Gazova Z, Siposova K, and Kuca K

Subjects

Acetylcholinesterase metabolism, Amantadine chemical synthesis, Amantadine chemistry, Amantadine pharmacology, Cholinesterase Inhibitors chemistry, Cholinesterase Inhibitors pharmacology, Enzyme Assays, Humans, Inhibitory Concentration 50, Molecular Docking Simulation, Reference Standards, Tacrine chemical synthesis, Tacrine chemistry, Tacrine pharmacology, Tacrine therapeutic use, Thiourea chemistry, Alzheimer Disease drug therapy, Amantadine therapeutic use, Cholinesterase Inhibitors chemical synthesis, Cholinesterase Inhibitors therapeutic use, Dimerization, Models, Molecular, Tacrine analogs & derivatives

Abstract

A structural series of 7-MEOTA-adamantylamine thioureas was designed, synthesized and evaluated as inhibitors of human acetylcholinesterase (hAChE) and human butyrylcholinesterase (hBChE). The compounds were prepared based on the multi-target-directed ligand strategy with different linker lengths (n = 2-8) joining the well-known NMDA antagonist adamantine and the hAChE inhibitor 7-methoxytacrine (7-MEOTA). Based on in silico studies, these inhibitors proved dual binding site character capable of simultaneous interaction with the peripheral anionic site (PAS) of hAChE and the catalytic active site (CAS). Clearly, these structural derivatives exhibited very good inhibitory activity towards hBChE resulting in more selective inhibitors of this enzyme. The most potent cholinesterase inhibitor was found to be thiourea analogue 14 (with an IC₅₀ value of 0.47 µM for hAChE and an IC₅₀ value of 0.11 µM for hBChE, respectively). Molecule 14 is a suitable novel lead compound for further evaluation proving that the strategy of dual binding site inhibitors might be a promising direction for development of novel AD drugs.

Published

2013

40. Depolymerization of insulin amyloid fibrils by albumin-modified magnetic fluid.

Author

Siposova K, Kubovcikova M, Bednarikova Z, Koneracka M, Zavisova V, Antosova A, Kopcansky P, Daxnerova Z, and Gazova Z

Subjects

Amyloid metabolism, Animals, Cattle, Insulin metabolism, Particle Size, Spectrometry, Fluorescence, Amyloid chemistry, Insulin chemistry, Magnetite Nanoparticles chemistry, Serum Albumin, Bovine chemistry

Abstract

Pathogenesis of amyloid-related diseases is associated with the presence of protein amyloid deposits. Insulin amyloids have been reported in a patient with diabetes undergoing treatment by injection of insulin and causes problems in the production and storage of this drug and in pplication of insulin pumps. We have studied the interference of insulin amyloid fibrils with a series of 18 albumin magnetic fluids (MFBSAs) consisting of magnetite nanoparticles modified by different amounts of bovine serum albumin (w/w BSA/Fe₃O₄ from 0.005 up to 15). We have found that MFBSAs are able to destroy amyloid fibrils in vitro. The extent of fibril depolymerization was affected by nanoparticle physical-chemical properties (hydrodynamic diameter, zeta potential and isoelectric point) determined by the BSA amount present in MFBSAs. The most effective were MFBSAs with lower BSA/Fe₃O₄ ratios (from 0.005 to 0.1) characteristic of about 90% depolymerizing activity. For the most active magnetic fluids (ratios 0.01 and 0.02) the DC50 values were determined in the range of low concentrations, indicating their ability to interfere with insulin fibrils at stoichiometric concentrations. We assume that the present findings represent a starting point for the application of the active MFBSAs as therapeutic agents targeting insulin amyloidosis.

Published

2012

41. Structure-activity relationship of acridine derivatives to amyloid aggregation of lysozyme.

Author

Antosova A, Chelli B, Bystrenova E, Siposova K, Valle F, Imrich J, Vilkova M, Kristian P, Biscarini F, and Gazova Z

Subjects

Alzheimer Disease drug therapy, Alzheimer Disease metabolism, Animals, Cell Line, Cell Survival drug effects, Chickens, DNA metabolism, Humans, Inhibitory Concentration 50, Structure-Activity Relationship, Acridines chemistry, Acridines pharmacology, Amyloid antagonists & inhibitors, Amyloid metabolism, Muramidase metabolism

Abstract

Background: Amyloid-related diseases (such as Alzheimer's disease or diabetes type II) are associated with self-assembly of protein into amyloid aggregates., Methods: Spectroscopic and atomic force microscopy were used to determine the ability of acridines to affect amyloid aggregation of lysozyme., Results: We have studied the effect of acridine derivatives on the amyloid aggregation of lysozyme to investigate the acridine structure-activity relationship. The activity of the effective planar acridines was characterized by the half-maximum depolymerization concentration DC(50) and half-maximal inhibition concentration IC(50). For the most effective acridine derivatives we examined their interaction with DNA and their effect on cell viability in order to investigate their eventual influence on cells. We thus identified planar acridine derivatives with intensive anti-amyloid activity (IC(50) and DC(50) values in micromolar range), low cytotoxicity and weak ability to interfere with the processes in the cell., Conclusions: Our findings indicate that both the planarity and the tautomerism of the 9-aminoacridine core together with the reactive nucleophilic thiosemicarbazide substitution play an important role in the anti-amyloid activities of studied derivatives., General Significance: The present findings favor the application of the selected active planar acridines in the treatment of amyloid-related diseases., (2011 Elsevier B.V. All rights reserved.)

Published

2011