Your search keyword '"Nikolaev, Vladimir"' showing total 9 results

1. Structural and Biological Activity of Micro-Nanoparticles Produced from Highly Activated Carbonic Adsorbent

Author

V. V. Sarnatskaya, S. A. Solopan, D L Kolesnik, Yuliia Shlapa, Anatolii Belous, Igor Prokopenko, Olga Brieieva, Nikolaev Vladimir G, Aleksandra Lykhova, and Alexey Sidorenko

Subjects

History, Quenching (fluorescence), Polymers and Plastics, Dispersity, Albumin, chemistry.chemical_element, Biological activity, medicine.disease_cause, Industrial and Manufacturing Engineering, Adsorption, chemistry, Amphiphile, Biophysics, medicine, Business and International Management, Carbon, Oxidative stress

Abstract

Over the recent years, carbon nanoparticles have gained relevance in the field of biomedical application to diminish the level of endo- / exogenous intoxication and oxidative stress products, which occur at different pathological states. However, it is very important that such carbon nanoparticles, specially developed for parenteral administration or per oral usage, possess a high adsorption potential and can remove hazard toxic substances of the hydrophilic, hydrophobic and amphiphilic nature usually accumulated in the blood due to the disease, and also be absolutely safe for normal living cells and tissues of organism. In this work, the stable monodisperse suspension containing very small-sized (1125.3 ±243.8 nm) and highly pure carbon particles with an excellent accepting ability were obtained. UV-spectra, fluorescence quenching constant, and binding association constant were provided by the information about conformational alterations in an albumin molecule in presence of carbon nanoparticles, about the dynamic type of quenching process and low binding affinity between carbon and protein. The later was confirmed by DSC method. In vitro cell culture experiments showed that carbon nanoparticles did not possess cytotoxic effect towards all testing the normal cell lines of different histogenesis, did not show genotoxic effects and were absolutely safe for experimental animals during and after their parenteral administration. These observations may provide more information about how to develop a safe preparation of carbon nanoparticles for different biomedical applications, in particular, as a mean for intracorporeal therapy of various heavy diseases accompanied by the increased endogenous intoxication and the level of oxidative stress.

Published

2021

2. The effect of two formulations of carbon enterosorbents on oxidative stress indexes and molecular conformation of serum albumin in experimental animals exposed to CCl4

Author

O.P. Kozynchenko, Lyudmila Makovetska, V. V. Sarnatskaya, Alexei Glavin, Igor Prokopenko, Victor Mikhailenko, L A Yushko, L. A. Sakhno, Nikolaev Vladimir G, Bogdan I. Gerashchenko, Oleksii S. Sydorenko, and O. O. Shevchuk

Subjects

0301 basic medicine, Serum albumin, medicine.disease_cause, Toxicology, Article, Antioxidants, Lipid peroxidation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Differential scanning calorimetry, Carbonic enterosorbents, Blood plasma, medicine, lcsh:Social sciences (General), lcsh:Science (General), Multidisciplinary, biology, Albumin, Liver failure, Glutathione, Malondialdehyde, Blood proteins, Rats, 030104 developmental biology, chemistry, Biochemistry, Protein conformation, Oxidative stress, biology.protein, lcsh:H1-99, Pharmaceutical chemistry, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

The liver failure means inability to perform its normal synthetic, biotransformation and excretory functions. The disturbance of metabolic processes leads to the development of "metabolic endogenous intoxication" resulting in oxidative stress. Oxidative stress initiates the processes of oxidation of amino acid residues of blood plasma proteins causing the changes in their structure and functions. The effect of administration of highly activated porous carbonic enterosorbents on oxidative stress manifestations and molecular conformation of serum albumin in blood of experimental animals with acute liver failure induced by carbon tetrachloride (CCl4) needs to be investigated. Two forms of activated carbonic enterosorbents such as AC1 (primary beads with the range of diameters of 125–250 μm) and AC2 (secondary granules prepared from micronized AC1 having the mean particle size of ~1 μm) derived from phenol-formaldehyde resin were used in rat model with CCl4 intoxication. The total level of reactive oxygen species (ROS) in blood plasma, the activity of catalase (CAT) in blood hemolysates; the content of reduced glutathione (GSH) in liver homogenates, and the level of oxidative modification of proteins (OMP) such as aldehyde-dinitrophenylhydrazone (A-DNPH) and ketone-dinitrophenylhydrazone (K-DNPH) derivatives in blood plasma and liver homogenates were determined. In addition, the level of pro/antioxidant ratio in blood hemolysates and the content of lipid peroxidation product - malondialdehyde (MDA), in blood plasma and liver were determined. Melting thermograms of blood plasma proteins (BPP) and molecular conformation changes of serum albumin were analyzed by biophysical methods (differential scanning microcalorimetry and spectrofluorimetry). The extent of CCl4-induced oxidative damage in blood and liver of experimental animals was shown to be less expressed for AC1 in comparison with AC2 enterosorbent. However, AC2 used in the form of secondary granules positively influenced some biophysical properties of albumin molecule (temperature of melting, shape of melting endotherm and intrinsic fluorescence) after rats exposure to CCl4. In general, administration of both AC1 and AC2 led to the reduction of oxidative stress manifestations and partial restoration of native molecular conformation of serum albumin. These observations are promising in terms of achieving recovery of detoxification potential of organism after severe liver injury., Pharmaceutical chemistry, Toxicology; Carbonic enterosorbents; Oxidative stress; Antioxidants; Liver failure; Serum albumin; Protein conformation; Differential scanning calorimetry; Rats

Published

2020

3. Highly activated carbon enterosorbent mediates the suppression of paraneoplastic syndrome associated with lewis lung carcinoma in mice

Author

V. V. Sarnatskaya, L M Paziuk, V N Maslenniy, N K Rodionova, Nikolaev Vladimir G, L. A. Sakhno, A S Sidorenko, and L. A. Yushko

Subjects

0301 basic medicine, Cancer Research, medicine.medical_specialty, Chemistry, Original contributions, Albumin, Lewis lung carcinoma, medicine.disease_cause, Blood proteins, Transplantation, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Oncology, Enterosorption, Internal medicine, Blood plasma, medicine, Bone marrow, Oxidative stress

Abstract

Aim: To investigate the effect of enterosorption on the development of paraneoplastic syndrome in mice with Lewis lung carcinoma (LLC). Materials and Methods: The study was performed on male С57/ВL6 mice with transplanted LLC. As an enterosorbent, highly activated powder fraction of HSGD was administered per os daily at a dose of 0.625 g/kg for two weeks starting from the 7th day after tumor cell transplantation. Analysis of hemo- and myelograms, morphological alterations in vital organs, the activities of catalase and superoxide dismutase, biochemical analysis of blood and quantitative analysis of hydroperoxides, malonic dialdehyde, аdvanced oxidation protein products was carried out by standard methods after completing the course of enterosorption. Ligand loading of blood plasma proteins was estimated by the method of differential scanning microcalorimetry. Results: Administration of enterosorbent resulted in inhibition of LLC growth and in nearly 2-fold decrease of lung metastases number (p < 0.05). Activation of granulocytic line in the bone marrow with nearly 3-fold enhancement of mitotic activity took place after enterosorbent administration. Red cell lineage indices and bone marrow cellularity remained unaltered. After enterosorption session, the studied biochemical indices of peripheral blood evidenced on decreasing the endogenous intoxication and oxidative stress levels, improving the functional state of kidneys, increasing the resistance of erythrocyte membranes and lowering the ligand loading of blood plasma transport proteins. Morphological structure of kidneys and liver confirmed significant positive effect of enterosorption. The data of morphologic examination of gastric fundus, small intestine, and large bowel slides after 2-week administration of enterosorbent showed its high safety and proper evacuation from intestine. Conclusion: The two-week long enterosorption session in mice with LLC caused the suppression of tumor growth and metastasis, normalization of bone marrow hemopoiesis. Enterosorption exerted a positive influence on the structural-morphologic indexes and regenerative potential of kidneys and liver, mitigated manifestations of oxidative stress, decreased the level of endogenous intoxication, promoted deliganding of albumin molecule and deloading of erythrocyte membranes.

Published

2018

4. New Approaches to the Removal of Protein-Bound Toxins from Blood Plasma of Uremic Patients

Author

L. A. Yushko, A. V. Nikolaev, L. A. Sakhno, Sergey V. Mikhalovsky, Nikolaev Vladimir G, D. V. Grinenko, and V. V. Sarnatskaya

Subjects

Biomedical Engineering, Serum albumin, Plasma, Reference Values, Renal Dialysis, Detoxification, Blood plasma, medicine, Humans, Furans, Serum Albumin, Toxins, Biological, Uremia, Whole blood, Binding Sites, Chromatography, Calorimetry, Differential Scanning, biology, Chemistry, Hippurates, Albumin, Membranes, Artificial, Hydrogen-Ion Concentration, Human serum albumin, Ligand (biochemistry), Hemoperfusion, Treatment Outcome, Charcoal, biology.protein, Adsorption, Propionates, Dialysis (biochemistry), Indican, Protein Binding, Biotechnology, medicine.drug

Abstract

The article is devoted to the theoretical aspects of the development of the effective method for the removal of protein-bound uremic toxins. It is shown that the methods of flow and differential scanning microcalorimetry are sufficient enough for the evaluation of the degree of ligand loading of human serum albumin with protein-bound uremic toxins. The molecules of albumin isolated from blood plasma of the patients being kept on chronic dialysis are demonstrating significant alterations of conformation and complex-forming properties, the correction of which by conventional methods of extracorporeal detoxification (exhaustive dialysis, treatment on synthetic SCN carbons) are practically ineffective. Deliganding of uremic albumin may be successfully performed on conventional carbon haemosorbents upon preliminary separation of blood plasma and its dilution with acetate buffer 1:1 at pH = 5.08. Treatment of the whole blood of patients onto new mass-fractal deliganding carbon, i.e., hemosorbents of HSGD trademark. These HSGD haemosorbents quite effectively could be used for restoration of main parameters of uremic HAS molecules conformation and ligand-binding activity simultaneously with hemodialysis upon the protection by locally performed citrate anticoagulation as an easier and cheaper method for the removal of protein-bound uremic toxins.

Published

2007

5. Effect of protein-bound uraemic toxins on the thermodynamic characteristics of human albumin

Author

L. A. Yushko, W. Edward Lindup, Andrey I Ivanov, Nikolaev Vladimir G, V. V. Sarnatskaya, Ludmila N Korneeva, Toshimitsu Niwa, John Tjia, and V N Maslenny

Subjects

Pharmacology, Isothermal microcalorimetry, Phenol red, Bilirubin, Hippurates, Albumin, Tryptophan, Hippuric acid, Biochemistry, chemistry.chemical_compound, chemistry, Albumins, Humans, Thermodynamics, Propionates, Binding site, Furans, Indican, Salicylic acid

Abstract

The ability of albumin to bind drugs and other lipophilic organic acids is decreased in chronic renal failure by the accumulation of albumin-bound uraemic toxins such as hippuric acid, indoxyl sulphate and 3-carboxy-4-methyl-5-propyl-2-furanpropanoic acid (CMPF). This furan acid is the most highly bound and is not removed by haemodialysis. The inhibitory effects of these three uraemic toxins on the interaction of three marker ligands sodium octanoate (for medium chain fatty acids), salicylic acid and phenol red (bilirubin site/site I) with albumin have been investigated by differential scanning microcalorimetry and flow microcalorimetry. CMPF was the most potent inhibitor and its binding site coincided with that of bilirubin (site I). Indoxyl sulphate binds to the site for medium-chain fatty acids and tryptophan (site II) and hippuric acid, the weakest inhibitor, inhibited binding to the salicylic acid site.

Published

2002

6. ALBUMIN, BILIRUBIN, AND ACTIVATED CARBON: NEW EDGES OF AN OLD TRIANGLE

Author

V N Maslenny, Andrey V. Nikolaev, Paul Walther, V. V. Sarnatskaya, W. Edward Lindup, Nikolaev Vladimir G, Alexej S. Sidorenko, and L. A. Yushko

Subjects

Adult, Male, Bilirubin, Biomedical Engineering, chemistry.chemical_element, Ligands, chemistry.chemical_compound, Adsorption, medicine, Humans, Platelet, Serum Albumin, Chromatography, Calorimetry, Differential Scanning, Albumin, Middle Aged, Human serum albumin, Unconjugated bilirubin, Hemoperfusion, body regions, chemistry, Charcoal, embryonic structures, Microscopy, Electron, Scanning, Female, Carbon, Liver Failure, Biotechnology, medicine.drug, Activated carbon

Abstract

The problem of interaction of human serum albumin (HSA), unconjugated bilirubin (UB) and high porosity activated HSGD carbons is investigated in this study. The decrease of UB to HSA molecular ratio by more than 300 times was demonstrated while the batch experiments in HSA-UB admixtures after contact with HSGD. HSGD carbons express extremely high activity for the removal of UB from HSA containing solutions (more than 100 mg of UB per 1 g of activated carbon). Ex-tempore albumin-coating of carbon surface decreases adsorbent capacity by bilirubin on 21%. At the same time ex-tempore albumin-coating of HSGD carbon surface as well as blood citratization prevent platelet and leukocytes loss and clotting inside of the column. Pharmacopoeia solution of HSA containing acetyl-tryptophan or octanoate used for albumin-coating of HSGD adsorbents, becomes ligand-free and rather more active in complexing with protein-bound substances. Combination of albumin-coated HSGD carbon as haemosorbent with HSA ligand-free solution as a transfusion media seems a new prospective modality of the extracorporeal removal of protein-bound toxins.

Published

2002

7. High-Porosity Activated Carbons for Bilirubin Removal

Author

Nikolaev Vladimir G, Makhorin Ke, L. A. Yushko, Klevtsov Vn, Sigal Vl, and V. V. Sarnatskaya

Subjects

Bilirubin, 030232 urology & nephrology, Biomedical Engineering, Albumin, Medicine (miscellaneous), chemistry.chemical_element, Bioengineering, General Medicine, 030204 cardiovascular system & hematology, Biomaterials, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Adsorption, chemistry, Volume (thermodynamics), Specific surface area, Phenols, Porosity, Carbon, Nuclear chemistry

Abstract

The aim of this study was to clarify the relationship between the extent of activation of synthetic granula and fibrous carbons and the adsorption of bilirubin from protein solutions. The total pore volumes of granular carbons START, SCN and fibrous activated carbons ACFM were 0.9–2.2. cm3/g and 0.8–1.5 cm3/g, respectively. A parallel increase in volume and specific surface area of micropores lead to a 4–5-fold increase of bilirubin adsorption from a 3% HS A solution. About 3 mg of bilirubin per 1 ml of the working column volume is removed from the solution with a 18 mg/100 ml concentration, after 8 min contact with an adsorbent after 4 hours of perfusion. Removal of bilirubin from model solutions means the conformation of albumin molecules can be restored. Carbon adsorbents synthesized for the elimination of bilirubin from protein-containing solutions can also be called deliganding adsorbents, since under some experimental conditions they eliminate other protein-bound ligands, viz. phenols by 97–99%, bile acids by 90–92% and sodium caprylate by 89–95%

Published

1991

8. Extraction of uraemic toxins with activated carbon restores the functional properties of albumin

Author

Adrej I. Ivanov, V. V. Sarnatskaya, L. A. Yushko, John Tjia, W. Edward Lindup, Nikolaev Vladimir G, V N Maslenny, and Natalia M. Gurina

Subjects

Adult, Male, Physiology, Calorimetry, Ligands, Chromatography, Affinity, Reference Values, Physiology (medical), medicine, Humans, Serum Albumin, Toxins, Biological, Uremia, Chemistry, fungi, Extraction (chemistry), Albumin, food and beverages, Human albumin, General Medicine, Hydrogen-Ion Concentration, Middle Aged, Biochemistry, Nephrology, Charcoal, Thermodynamics, Acids, Activated carbon, medicine.drug, Protein Binding

Abstract

Background: Previous work has demonstrated that a partial normalization of the conformation of albumin from uraemic plasma and a substantial restoration of its binding abilities can be achieved by extraction with activated charcoal. This is best achieved at pH 3, but exposure of whole plasma to this low pH leads to the loss of some essential components. Methods: The melting curves and ligand-binding abilities of uraemic albumin have been investigated after extraction with a new generation of activated carbon at three pH values (7.2, 3.0 and 5.08). Results: Albumin isolated from uraemic plasma had a characteristically increased melting temperature because of bound ligands. Extraction of uraemic plasma at pH 7.2, 5.08 and 3.0 induced low-temperature shifts of albumin thermo-adsorption maximum T1 of 1.4, 3.8, 2.4°C and T2 of 0.8, 3.9 and 1.2°C, respectively. Flow microcalorimetry data demonstrated a decrease in the ability of uraemic albumin to bind octanoate, phenol red, salicylic acid, warfarin and diazepam. Purification of uraemic plasma at pH 5.08 completely restored the binding affinity of albumin for all the marker ligands. Conclusions: Highly efficient activated carbons, with clinically feasible acidification of plasma, can remove strongly albumin-bound uraemic toxins. Investigation of the melting curve of the isolated albumin is a new biophysical way to monitor both its molecular condition and the extent of removal of protein-bound toxins by dialysis. The melting curve provides new qualitative and quantitative information about albumin in an analogous way to an electrocardiogram and the heart.

Published

2003

9. Structure and Binding Properties of Serum Albumin in Uremic Patients at Different Periods of Hemodialysis.

Author

Sarnatskaya, Veronika V., Ivanov, Andrey I., Nikolaev, Vladimir G., Rotellar, Emillio, Appen, Kai von, Haspar, Maslenny, Vitaly N., Klinkman, Horst, and Sarnatskaya

Subjects

SERUM albumin, HEMODIALYSIS

Abstract

Few diagnostic methods are available that describe uremia related changes of the albumin molecule structure in hemodialysis patients. The impaired human serum albumin (HSA) function is an essential part of the uremic syndrome and probably influences the long-term outcome of patients on maintenance dialysis. The albumin binding capacity (characterized for different binding centers on the molecule) is one of the relevant clinical parameters. During the current study, marker substances were utilized to evaluate center-specific binding capacity. Patients were divided into 3 groups depending on the time on hemodialysis (HD) treatment (in years) with healthy blood donors as control. Compared to healthy persons, results demonstrate a considerable impairment of binding characteristics in HD patients. Only in patients on maintenance HD for more than 5 years did ligand binding properties improve significantly. A correlation between the time of chronic HD and the recovery in binding capacity was found for the majority of binding centers of the HSA molecule. Similar results were seen applying such analytical methods as thermography (melting points) and thermofluorescence. Binding capacity impairment found for specified binding centers on the HSA molecule as the main serum carrier protein may have a direct impact on different clinical situations and the HD long-term outcome. [ABSTRACT FROM AUTHOR]

Published

1998