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4. Impact of Permeant Cryoprotectors on Under-Membrane Skeleton of Human Erythrocytes.

Author

Paarvanova, B., Karabaliev, M., Tacheva, B., and Ivanov, I.

Subjects
*CRYOPROTECTIVE agents, *ARTIFICIAL membranes, *ERYTHROCYTES, *BIOLOGICAL membranes, *DIELECTRIC relaxation
Abstract

Formamide (FA), N-methylformamide (MFA), N,N-dimethylformamide (DMFA) and dimethyl sulfoxide (DMSO) are frequently used as cryoprotectors of cells. We applied thermal dielectroscopy to study the impact of these membrane-permeable cryoprotectors on the segmental mobility and attachment of spectrin-based skeleton to the lipid membrane of human erythrocytes. Upon heating a suspension of erythrocytes, spectrin denatures at 49.5 °C causing sigmoid frequency-dependent changes in the complex impedance, ΔZ*=ΔZre+j.ΔZim, of suspension. The -ΔZim vs ΔZre plot depicts two semicircles which correspond to the beta (0.05-1.0 MHz) and gamma (1.0-10 MHz) dielectric relaxations on spectrin skeleton [1]. At concentrations (1 to 4 M), relevant to cryoprotection, DMFA and DMSO subdued gamma relaxation, while FA and MFA strongly inhibited the beta relaxation. These effects were eliminated on washing and did not depend on osmotic pressure produced. Applied in combination, DMSO and FA neutralized their opposite effects on the dielectric relaxations. These results are discussed in light of possible impact of tested cryoprotectors on the attachment sites of spectrin skeleton to the lipid membrane. [ABSTRACT FROM AUTHOR]

Published
2019
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5. Electrostriction Techniques for Preparation of Thin Lipid Films on Different Solid Supports.

Author

Karabaliev, M., Paarvanova, B., Ivanov, I., and Tacheva, B.

Subjects
*ELECTROSTRICTION, *LIPID films, *CARBON electrodes, *PHYSICAL constants, *SOLUTION (Chemistry)
Abstract

Two types of electrostriction techniques that apply constant (DC) or alternate (AC) voltage are used in the work to prepare thin lipid films on three different types of electrodes – glassy carbon (GC), gold and SiO/SiO2. The films are obtained by a self-thinning of lipid organic solution placed between the electrode and an electrolyte solution. This process leads to relatively thick films with thicknesses in the range 100-1000 Ã… depending on the solid support. Further thinning is achieved by electrostriction that generates additional external pressure P∼ULF²/h², where ULF is the voltage drop across the lipid film and h is the film thickness. ULF depends on the applied external voltage UEXT and the voltage drops across the other elements in the overall circuit that represents the electrochemical cell consisting of the film-supporting electrode, the lipid film, the electrolyte solution and the reference electrode. On the other hand, the voltage drop across each element depends on the type of the applied voltage - constant (DC) or alternate (AC). In the case of glassy carbon and gold electrodes, the most insulating element is the lipid film and the voltage drop ULF is close to the applied UEXT, which permits to obtain easily thin films by DC-electrostriction. In the case of Si/SiO2 wafers, the insulating SiO2 layer represents an almost ideal capacitor in series with the other elements in the circuit. Applying DC-electrostriction leads to a predominant voltage drop across the SiO2 layer and small voltage drop ULF. To obtain sufficiently high ULF that would lead to the thinning of SiO/SiO2-supported lipid layer, an AC-electrostriction is used. At higher frequencies of AC-voltage, the impedance of the SiO2 layer becomes small and the voltage drops across the SiO2 layer and across the lipid film become comparable. Thus, according to the type of the support either DC-electrostriction or AC-electrostriction could be used to obtain very thin lipid films. [ABSTRACT FROM AUTHOR]

Published
2019
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9. Electrochemical Investigation of the Stability of Poly-Phosphocholinated Liposomes.

Author

Karabaliev M, Paarvanova B, Savova G, Tacheva B, Jahn S, and Georgieva R

Subjects
Gold chemistry, Electrochemical Techniques, Electrodes, Carbon chemistry, Phosphorylcholine chemistry, Phosphorylcholine analogs & derivatives, Liposomes chemistry, Dielectric Spectroscopy
Abstract

Poly[2-(methacryloyloxy)ethyl phosphorylcholine] liposomes (pMPC liposomes) gained attention during the last few years because of their potential use in treating osteoarthritis. pMPC liposomes that serve as boundary lubricants are intended to restore the natural lubrication properties of articular cartilage. For this purpose, it is important that the liposomes remain intact and do not fuse and spread as a lipid film on the cartilage surface. Here, we investigate the stability of the liposomes and their interaction with two types of solid surfaces, gold and carbon, by using cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). With the aid of a hydrophilic species used as an electroactive probe in the solution, the charge transfer characteristics of the electrode surfaces are obtained. Additionally, from EIS, the capacitance characteristics of the surfaces are derived. No decrease of the peak currents and no displacement of the peak potentials to greater overpotentials are observed in the CV experiments. No decrease in the apparent capacitance and increase in the charge transfer resistance is observed in the EIS experiments. On the contrary, all parameters in both CV and EIS do change in the opposite direction. The obtained results confirm that there is only physical adsorption without fusion and spreading of the pMPC liposomes and without the formation of lipid films on the surfaces of both gold and carbon electrodes.

Published
2024
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10. Change in Osmotic Pressure Influences the Absorption Spectrum of Hemoglobin inside Red Blood Cells.

Author

Karabaliev M, Tacheva B, Paarvanova B, and Georgieva R

Subjects
Osmotic Pressure, Spectrophotometry, Osmolar Concentration, Erythrocytes, Hemoglobins
Abstract

Absorption spectra of red blood cell (RBC) suspensions are investigated in an osmolarity range in the medium from 200 mOsm to 900 mOsm. Three spectral parameters are used to characterize the process of swelling or shrinkage of RBC-the absorbance at 700 nm, the Soret peak height relative to the spectrum background, and the Soret peak wavelength. We show that with an increase in the osmolarity, the absorbance at 700 nm increases and the Soret peak relative height decreases. These changes are related to the changes in the RBC volume and the resulting increase in the hemoglobin intracellular concentration and index of refraction. Confocal microscopy and flow cytometry measurements supported these conclusions. The maximum wavelength of the Soret peak increases with increasing osmolarity due to changes in the oxygenation state of hemoglobin. Using these spectrum parameters, the process of osmosis in RBCs can be followed in real time, but it can also be applied to various processes, leading to changes in the volume and shape of RBCs. Therefore, we conclude that UV-Vis absorption spectrophotometry offers a convenient, easily accessible, and cost-effective method to monitor changes in RBC, which can find applications in the field of drug discovery and diagnostics of RBC and hemoglobin disorders.

Published
2024
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11. Hemolysis by Saponin Is Accelerated at Hypertonic Conditions.

Author

Paarvanova B, Tacheva B, Savova G, Karabaliev M, and Georgieva R

Subjects
Humans, Sodium Chloride pharmacology, Erythrocytes, Osmotic Pressure, Hemolysis, Saponins pharmacology, Saponins metabolism
Abstract

Saponins are a large group of organic amphiphilic substances (surfactants) mainly extracted from herbs with biological activity, considered as one of the main ingredients in numerous remedies used in traditional medicine since ancient times. Anti-inflammatory, antifungal, antibacterial, antiviral, antiparasitic, antitumor, antioxidant and many other properties have been confirmed for some. There is increasing interest in the elucidation of the mechanisms behind the effects of saponins on different cell types at the molecular level. In this regard, erythrocytes are a very welcome model, having very simple structures with no organelles. They react to changing external conditions and substances by changing shape or volume, with damage to their membrane ultimately leading to hemolysis. Hemolysis can be followed spectrophotometrically and provides valuable information about the type and extent of membrane damage. We investigated hemolysis of erythrocytes induced by various saponin concentrations in hypotonic, isotonic and hypertonic media using measurements of real time and end-point hemolysis. The osmotic pressure was adjusted by different concentrations of NaCl, manitol or a NaCl/manitol mixture. Unexpectedly, at a fixed saponin concentration, hemolysis was accelerated at hypertonic conditions, but was much faster in NaCl compared to mannitol solutions at the same osmotic pressure. These findings confirm the colloid-osmotic mechanism behind saponin hemolysis with pore formation with increasing size in the membrane.

Published
2023
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12. Drug Exchange between Albumin Nanoparticles and Erythrocyte Membranes.

Author

Tacheva B, Paarvanova B, Ivanov IT, Tenchov B, Georgieva R, and Karabaliev M

Abstract

The effects of thioridazine (TDZ) and chlorpromazine (CPZ) and bovine serum albumin nanoparticles (BSA-NPs) on erythrocyte membranes have been investigated. Two kinds of hemolytic assays were used; hemolysis under hypotonic conditions and hemolysis in physiological conditions. Under hypotonic conditions for 50% hemolysis, both TDZ and CPZ have a biphasic effect on membranes; namely, stabilization at low concentrations and destabilization after reaching a critical concentration. In physiological conditions, there are other critical concentrations above which both drugs hemolyse the erythrocites. In each case, the critical concentrations of TDZ are lower than those of CPZ, which is consistent with the ratio of their partition coefficients. When BSA-NPs are added to the erythrocyte suspension simultaneously with the drugs, the critical concentrations increase for both drugs. The effect is due to the incorporation of a portion of drug substances into the BSA-nanoparticles, which consequently leads to the decrease of the active drug concentrations in the erythrocyte suspension medium. Similar values of the critical concentrations are found when the BSA-NPs are loaded with the drugs before their addition to the erythrocyte suspension in which case the events of the partition are: desorption of the drug from BSA-NPs, diffusion through the medium, and adsorption on erythrocyte membranes. This result suggests that the drugs are not influenced by the processes of adsorption and desorption onto and out of the BSA-NPs, and that the use of BSA-NPs as drug transporters would allow intravenous administration of higher doses of the drug without the risk of erythrocyte hemolysis.

Published
2018
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13. Effects of divalent cations on the formation and structure of solid supported lipid films.

Author

Karabaliev M

Subjects
Calcium chemistry, Carbon chemistry, Electrochemistry, Electrodes, Electrolytes chemistry, Ferrocyanides chemistry, Lecithins chemistry, Magnesium chemistry, Manganese chemistry, Oxidation-Reduction, Potassium Chloride chemistry, Silver chemistry, Silver Compounds chemistry, Surface Properties, Cations, Divalent chemistry, Lipids chemistry, Metals chemistry, Wetting Agents chemistry
Abstract

The interaction of glassy carbon-supported thin wetting films of lecithin with some divalent cations is investigated by impedimetry and voltammetry. The influence of Ca2+, Mg2+, and Mn2+ on the film structure is explored in two different cases--the divalent cations are added to the electrolyte either before or after the formation of the film. When the film has been previously formed, the addition of divalent cations in millimolar concentrations leads to changes in the passive electrical parameters and the blocking properties of the films. On the one hand the dielectric properties of the film measured in 0.1 M KCl seem to improve after the interaction with divalent cations--the film capacitance decreases, the resistance and resistivity of the film increase. On the other hand the increase of the redox current in the presence of 1 mM Fe(CN)6(3-/4-) in the electrolyte suggests the formation of some defects in the lipid structure of the film after the action of divalent cations. It is shown that the amount of these defects could be significantly decreased when the divalent cations are present in the electrolyte solution before the film formation. The effect of divalent cations on the film stability is tested by applying negative potential to the film. In 0.1 M KCl the films are not stable at potential of - 0.8 V (vs. Ag/AgCl) and are destroyed. The addition of divalent cations stabilizes the films and at certain millimolar concentrations the films remain intact after the action of the negative potential. The effect of Mn2+ is more pronounced, the Ca2+ and Mg2+ have smaller commensurate effect. It is proposed that the changes in the films' properties could be related with more tight packing of the lipid molecules with the divalent cations inserted in the film and that some defects could be opened during the rearrangement of the lipids when the film has been previously formed.

Published
2007
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14. Interaction of thin wetting films of lecithin with some divalent cations.

Author

Karabaliev M and Kochev V

Subjects
Calcium chemistry, Cations chemistry, Electric Impedance, Magnesium chemistry, Manganese chemistry, Surface Properties, Electrochemistry methods, Membrane Fluidity, Membrane Lipids chemistry, Membranes, Artificial, Metals chemistry, Phosphatidylcholines chemistry, Wetting Agents chemistry
Abstract

The impact of some divalent cations on the structure of a model membrane system, comprising wetting lipid films, is assayed in this work. The results from impedimetry suggest prominent structural changes upon the addition of the discussed ions to the electrolyte solution contacting the film. These changes are manifested by the increase of resistivity of the films as well as by the decrease of capacitance dispersion. In accordance with other data in the literature, manganese (Mn(2+)) turned out to have an effect greater than those of Mg(2+) and Ca(2+).

Published
2004
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15. Evaluation of chlorophyll fluorescence and membrane injury in the leaves of barley cultivars under osmotic stress.

Author

Kocheva K, Lambrev P, Georgiev G, Goltsev V, and Karabaliev M

Subjects
Cell Membrane drug effects, Cell Membrane physiology, Cell Membrane Permeability drug effects, Disasters, Fluorescence, Hordeum drug effects, Hordeum radiation effects, Immunity, Innate drug effects, Immunity, Innate physiology, Immunity, Innate radiation effects, Light, Osmotic Pressure drug effects, Oxidative Stress drug effects, Plant Diseases chemically induced, Plant Leaves drug effects, Plant Leaves radiation effects, Polyethylene Glycols pharmacology, Water-Electrolyte Balance drug effects, Water-Electrolyte Balance physiology, Cell Membrane Permeability physiology, Chlorophyll metabolism, Chlorophyll radiation effects, Hordeum physiology, Oxidative Stress physiology, Plant Leaves physiology, Water metabolism
Abstract

Two physiological tests for screening drought tolerance of barley (Hordeum vulgare, L.) plants are compared in this work. Water deficit is induced by treating the plants' roots with polyethylene glycol (PEG 8000). The relative water content (RWC) of the plants is used as a measure of the water status. Conductometrically determined electrolyte leakage from the leaf tissue demonstrates the membrane injury caused by dehydration. It is shown that the injury index increases with the decrease of the RWC of the leaves. The F(v)/F(m) ratio is employed to assess changes in the primary photochemical reactions of the photosynthetic apparatus after dehydration. The results suggest that PSII is weakly affected by the imposed osmotic stress. The fluorescence behaviour of the examined cultivars is related to their RWC.

Published
2004
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16. Wetting films of lipids in the development of sensitive interfaces. An electrochemical approach.

Author

Kochev V and Karabaliev M

Subjects
Models, Theoretical, Oxidation-Reduction, Solutions, Surface Properties, Wettability, Biosensing Techniques, Electrochemistry, Lipids chemistry
Abstract

Solid-supported thin liquid films of lipids, contacting an electrolyte phase, turned out to be a dependable system in the field of bosensors. The investigations of these objects during the past decade reveal some of their intriguing features enabling the application in constructions of receptor part with 'two-dimensional' arrangement. As a model system, complementary to the other artificial analogs of biomembranes, the wetting films of lipids offer certain advantages concerning the compromise between the stability and flexibility of the molecular structures involved in sensing. The basic principles underlaying the techniques of formation, as well as the conditions of the films stability are emphasized in the present consized review. While no limitations are imposed by the way of preparation, the films seem especially profitable in conjunction with methods for electrochemical signal transduction. In this regard some prominent examples are discussed.

Published
2004
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17. Electrochemical investigations of cholesterol enriched glassy carbon supported thin lipid films.

Author

Karabaliev M and Kochev V

Subjects
Carbon, Electric Impedance, Electrochemistry instrumentation, Electrodes, Phosphatidylcholines chemistry, Cholesterol chemistry, Electrochemistry methods, Lipids chemistry
Abstract

The formation and study of stable cholesterol enriched thin lipid layers onto the surface of glassy carbon electrode is reported in this work. The method of formation relies on additional thinning of wetting films by electrostriction. Electrochemical techniques based on the concepts of impedance and voltammetry are used to explore the films' features. The impedance data reveal a substantial change of relaxation characteristics of the modified films. In this respect, opportunities for the evaluation of the films' stage based on the approximation with 'constant phase angle element' are discussed. The possible final structure of the films, as well as, their relevance for development of sensor elements are briefly viewed.

Published
2003
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