Activation of Transcription Factor Nrf2 in HeLa Cells under the Action of Nitrosyl Iron Complex with N-Ethylthiourea.

We studied the effect of an NO donor, nitrosyl iron complex with N-ethylthiourea, on Nrf2-dependent antioxidant system activation of tumor cells in vitro. The complex increased intracellular accumulation of Nrf2 transcription factor and induced its nuclear translocation. It was shown that both heme oxygenase-1 gene and protein expression increased significantly under the influence of the complex. Nrf2 activation was accompanied by a decrease in the intracellular accumulation of proinflammatory transcription factor NF-κB p65 subunit and expression of its target genes. The cytotoxic effect of N-ethylthiourea leads to induction of Nrf2/HO-1 antioxidant response and suppression of NF-κB-dependent processes in tumor cells.

Synthesis of a tetranitrosyl iron complex with unique structure and properties as an inhibitor of phosphodiesterases.

A novel neutral tetranitrosyl iron complex {[Fe(H2O)4]2+[FeR2(NO)2]22-}·4H2O (1) with R = 5-(3-pyridyl)-4H-1,2,4-triazole-3-thiolyls (C7H5N4S), which is a supramolecular ensemble, has been synthesized and studied. As follows from X-ray diffraction analysis, this is an octahedral Fe2+complex (Lewis acid) with two monoanionic dinitrosyl groups [FeR2(NO)2]- (Lewis base) and 4 water molecules as the ligands. As follows from Mössbauer spectra, the coordinating Fe2+ ion is in a low-spin state S = 0, and the dinitrosyl Fe+ ion is in a low-spin state S = 1/2. According to the data of EPR spectroscopy, mass-spectrometry and amperometry, complex 1 in solution forms dinitrosyl particles of [Fe(C7H6N4S-H)2(NO)2]- composition, which are responsible for NO generation. In addition, complex 1 was shown to be a 5-6 times more efficient phosphodiesterase (PDE) inhibitor at 5 × 10-5 M and 10-4 M concentrations than its thioligand. Probable binding sites of the [FeR2(NO)2]- ligand for the bovine PDE1B model have been determined by molecular docking and quantum-chemical calculations.

Cationic dinitrosyl iron complexes with thiourea exhibit selective toxicity to brain tumor cells in vitro.

The cytotoxic activity of a series of dinitrosyl iron complexes (DNICs) with thioureas against cells of different origin has been studied in this work. The cytotoxicity of the studied DNICs proved to be substantially different depending on the structure of the complexes and cell line. Complexes with thiourea and 1,3-dimethylthiourea were found to induce notable cell death in different cell lines of both cancerous and non-cancerous origin, while the N-ethylthiourea-bearing complex induced cell death in cells derived from brain tumors. The studied DNICs effectively release NO while decomposing in solutions, as follows from the electrochemical analysis. It was found that the cytotoxic effects of the studied DNICs did not correlate with their NO-donating ability, hence suggesting that their cytotoxic activity is, in a big part, defined by the long-lived nitrosyl iron-sulfur intermediates formed during the decomposition of the complexes. The structures of the products formed upon hydrolytic decomposition of all studied DNICs have been studied by electrospray ionization mass spectrometry. Stable high-molecular cluster ions containing NO groups namely [Fe4S3(NO)7]- (Roussin's "black salt" anion), [Fe4S3(NO)5]-, [Fe4S4(NO)4]-, [Fe4S3(NO)4]- and [Fe4S3(NO)6]- have been detected in the solution of the N-ethylthiourea-bearing complex. The mechanism of Roussin's "black salt" anion formation in a solution of DNIC with N'-ethylthiourea was studied using density functional theory. This moved us near understanding the reasons for the formation of biologically active intermediates upon the decomposition of the complex with N'-ethylthiourea, which are apparently responsible for the unique antiglioma activity of the complex.

ANALYSIS OF DISABILITY AND REHABILITATION NEEDS OF THE ANTI-TERRORIST OPERATION/JOINT FORCES OPERATION PARTICIPANTS IN UKRAINE.

The purpose of the study - to conduct an analysis of the disability of ATO/JFO participants in 2014-2021 with a detailed comparative analysis of data of 2021 and determination of the needs of the mentioned contingent in rehabilitation devices. Operational information was collected according to the statistic form of ATO/OOS participants examined at the medical and social expert commissions: developed by the authors statistical form "Report on the causes of disability, indications for medical, professional and social rehabilitation in ATO participants for _____ year", which was summarized and processed. Materials were collected from 2014 to 2021. More than a half of those recognized for the first time as disabled, 2,997 people in 2021 (86.0%), 2,624 people in 2020 (81.2%), 3,297 people in 2019 (79.3%), 2,848 people (75.5%) in 2018 and 1,859 people (65.0%) in 2017 - received the disability group not as a result of traumatic injuries, but for other unspecified reasons that did not have a traumatization factor. The main causes of disability were diseases of the circulatory system (47.9%), musculoskeletal system (13.4%), mental and behavioral disorders (7.2%), neoplasms (3.8%), diseases of the nervous system (3.3%), endocrine diseases, nutritional disorders, and metabolic disorders (3.2%), diseases of the digestive organs (2.0%), some infectious and parasitic diseases (1.6%), respiratory diseases (1.3%) and other reasons (0.7%). In 2021, less than » (14.0%) of ATO/JFO participants were initially recognized as disabled due to various traumatic injuries, which is 25.5% less than in 2020. Among the patients with injuries of the musculoskeletal system, prevailed the victims with injuries of the lower extremities - 92 people, with injuries of the upper extremities - 44 people, polytraumas 38 people, combined injuries - 22 people. Traumatic lesions of the spinal cord led to the onset of disability in 7 persons, traumatic eye lesions in 12 persons. Medical rehabilitation services, including restorative treatment, reconstructive surgery, and orthotics, were the most needed among the examined ATO/JFO participants. More than half of the participants of ATO/JFO received the disability group due to other reasons that did not have a trauma factor, not traumatic injuries. Traumatic brain lesions accounted for 6.9% of the total number of ATO/JFO participants recognized as disabled, musculoskeletal injuries - 3.9%. 1.1% were recognized as disabled due to polytraumas, 0.2% due to combined injuries. Traumatic lesions of the spinal cord led to the onset of disability in 0.2%. With a traumatic eye injury, 0.3% were recognized as disabled. Complicated limb injuries with damage to peripheral nerves accounted for 0.1% and blood vessels - 0.1%. Medical rehabilitation services, including restorative treatment, reconstructive surgery, and orthotics, were the most needed among ATO/JFO participants examined. The increase in the number of ATO/JFO participants initially recognized as disabled due to reasons not related to traumatic lesions requires further careful analysis, determination of the reasons for such a situation and the development of effective measures for the prevention of disability and the return of lost functionality in the specified contingent, which will become the topic of further research.

Effects of albumin-bound nitrosyl iron complex with thiosulfate ligands on lipid peroxidation and activities of mitochondrial enzymes in vitro.

Nitric oxide (NO) mediates diverse physiological processes in living organisms. Small molecular NO donors usually lack stability and have a short half-life in human tissues, limiting the therapeutic application. The anionic tetranitrosyl iron complex with thiosulfate ligands (TNIC) is one of the most promising NO donors. This study shows that bovine serum albumin (BSA) can effectively stabilize the TNIC complex under aerobic (physiological) conditions, which contributes to its prolonged action as NO donor. Our results demonstrated that TNIC-BSA inhibits formation of TBARS - standard biomarker for the lipid peroxidation induced oxidative stress. Also, it was found that TNIC-BSA inhibits the catalytic activity of mitochondrial membrane-bound enzymes: cytochrome c oxidase and monoamine oxidase A. Together, these results demonstrate that, stabilization of TNIC with BSA opens up the possibility of its practical application in chemotherapy of socially significant diseases.

Formation of supramolecular synthons in the crystalline structure of the dinitrosyl iron complexes with aliphatic thiourea ligands.

By means of quantum-chemical calculations using Density Functional Theory, Quantum Theory of Atoms in Molecules, and Natural Bond Orbitals, theoretical modeling of intermolecular interactions has been performed for eight nitrosyl iron complexes with aliphatic thiourea ligands, which was aimed at discovering the presence of the NO…NO intermolecular interactions and at studying the possibility of the NO…NO supramolecular synthon formation in their crystalline structure for explaining their unusual magnetic properties. Such interactions were shown to be either stacking or T-like interactions, depending on the relative position of nitrosyl ligands and energetically corresponding to Van der Waals bonds. Mainly LP(O), π (NO), and π*(NO) orbitals in various combinations participate in their formation, with π (FeN), π(FeО), and LP(N) orbitals hardly being participants. The involvement of the NO bond orbitals results in quenching the orbital moment of the NO groups. If NO groups are isolated from intermolecular interactions, they can preserve the unquenched orbital moment.

Antioxidant Activity of Tetranitrosyl Iron Complex with Thiosulfate Ligands and Its Effect on Catalytic Activity of Mitochondrial Enzymes In vitro.

The antioxidant and antiradical properties of the tetra nitrosyl iron complex with thiosulfate ligands (TNIC) were studied in vitro in mouse brain homogenates. It was found for the first time that TNIC is an effective antioxidant. The effect of TNIC on the catalytic activity of mitochondrial enzymes cytochrome c oxidase and monoamine oxidase A was studied. It was shown for the first time that TNIC is an inhibitor of the catalytic activity of cytochrome c oxidase and monoamine oxidase A in animal brain mitochondria in vitro.

Anticancer Activity of Dinitrosyl Iron Complex (NO Donor) on the Multiple Myeloma Cells.

The results of the study of the effect of a mononuclear dinitrosyl iron complex (DNIC7) with functional sulfur-containing ligands (NO donors) on the viability of multiple myeloma cells are presented. It was shown that DNIC7 decreased cell viability and inhibited the proliferation of multiple myeloma cells, i.e., exhibits cytotoxic properties. Fluorescent analysis showed that the DNIC7 compound decreases the level of intracellular glutathione and increases the level of reactive oxygen species in multiple myeloma cells. It is assumed that DNIC7 has a therapeutic potential for the treatment of cancer.

[The Analysis of Causes of Dissatisfaction of Patients with Medical Care Based on Appeals of Citizen and Independent Evaluation of Quality of Medical Services by Medical Organizations].

The article presents the main approaches to analysis of the causes of the patients' dissatisfaction with medical care based on the appeals of citizen and independent assessment of medical care quality in medical institutions of various levels. The results of evaluation of web-sites testify good results of functioning of medical institutions. The number of sound complaints of citizen on inadequate medical care services in particular medical organizations continues to be high. The main causes of patients' dissatisfaction with medical care are analyzed.

Action of Iron Nitrosyl Complexes, NO Donors, on the Activity of Sarcoplasmic Reticulum Ca2+-ATPase and Cyclic Guanosine Monophosphate Phosphodiesterase.

The effect of iron nitrosyl complexes, NO donors, of a general formula [Fe2(L)2(NO)4] with functional sulfur-containing ligands (L-3-nitro-phenol-2-yl, 4-nitro-phenol-2-yl, or 1-methyl-tetrazol-5-yl) on the activity of sarcoplasmic reticulum Ca2+-ATPase and cyclic guanosine monophosphate phosphodiesterase (cGMP PDE) was studied. The test complexes uncoupled the hydrolytic and transport functions of Ca2+- ATPase, thus disturbing the balance of Ca2+ ions in cells, which may affect the formation of thrombi and adhesion of metastatic cells to the endothelium of capillaries. They also inhibited the activity of cGMP PDE, thereby contributing to the accumulation of the second messenger cGMP. The studied iron nitrosyl complexes can be considered as potential drugs.

Effect of Dinitrosyl Iron Complexes (NO Donors) on the Metabolic Processes in Human Fibroblasts.

The results of the study of the effect of mononuclear dinitrosyl iron complexes (DNICs) with functional sulfur-containing ligands (NO donors) on the cell viability and metabolism of human lung fibroblasts are presented, and the efficiency of their action is evaluated. It was shown that cationic DNICs increased the cell viability of fibroblasts and demonstrated the cytoprotective properties. Fluorescent analysis revealed that the DNICs compounds decrease the mitochondrial membrane potential but do not have a significant effect on the level of glutathione and reactive oxygen species in fibroblasts. It is assumed that the DNICs have the therapeutic potential for treating cardiovascular diseases.

Effects of Nitrosyl Iron Complexes with Thiocarbamide and Its Aliphatic Derivatives on Activities of Ca2+-ATPase of Sarcoplasmic Reticulum and cGMP Phosphodiesterase.

We studied the effects of water-soluble cationic dinitrosyl iron complexes with thiocarbamide and its aliphatic derivatives, new synthetic analogs of natural NO donors, active centers of nitrosyl [1Fe-2S]proteins, on activities of Ca2+-ATPase of sarcoplasmic reticulum and cGMP phosphodiesterase. Nitrosyl iron complexes [Fe(C3N2H8S)Cl(NO)2]0[Fe(NO)2(C3N2H8S)2]+Cl- (I), [Fe(SC(N(CH3)2)2(NO)2]Cl (II), [Fe(SC(NH2)2)2(NO)2Cl×H2O (III), and [Fe(SC(NH2)2)2(NO)2]2SO4×H2O (IV) in a concentration of 10-4 M completely inhibited the transporting and hydrolytic functions of Ca2+-ATPase. In a concentration of 10-5 M, they inhibited active Ca2+ transport by 57±6, 75±8, 80±8, and 85±9% and ATP hydrolysis by 0, 40±4, 48±5, and 38±4%, respectively. Complex II reversibly and noncompetitively inhibited the hydrolytic function of Ca2+-ATPase (Ki=1.7×10-6 M). All the studied iron-sulphur complexes in a concentration of 10-4 M inhibited cGMP phosphodiesterase function. These data suggest that the studied complexes can exhibit antimetastatic, antiaggregation, vasodilatatory, and antihypertensive activities.

The inhibitory effect of dinitrosyl iron complexes (NO donors) on myeloperoxidase activity.

The effect of synthetic analogues of dinitrosyl mononuclear iron complexes (DNICs) with functional sulfur-containing ligands (NO donors) on the activity of myeloperoxidase (MPO) was studied, and their efficiency was evaluated. It was shown that the enzyme MPO is the molecular target of DNICs. It was found that six DNICs inhibited the activity of MPO and one compound potentiated it. The evaluation of their efficiency showed that two DNICs effectively inhibited the activity of MPO by 50% at IC50 = 2 × 10-4 M and IC50 = 5 × 10-7 M.

[Elaboration of immune stimulating lipid-saponin subunit antigen carrier based on glycolipid monogalactosyldiacylglycerol from sea macrophytes and triterpene glycosides from Cucumaria japonica].

The ability of some triterpene glycosides of holothurians: holotoxin A1 from Apostichopus japonicus and a mixture of monosulphated triterpene glycosides from Cucumaria japonica called cucumarioside (CD) to form supramolecular complexes with cholesterol (Chol) and monogalactosyldiacylglycerol (MGDG) or phosphatidylcholine (PC) was studied. A transmission electron microscopy method was used to observe supramolecular lipid-saponin complexes formed by holotoxin A1 and CD with cholesterol in the presence of membrane lipids. The observed supramolecular complexes are tubular nanoparticles with a length of 100-300 nm, an external diameter of 10-16 nm and an internal diameter of 2-6 nm. The formation of tubular nanoparticles was more effective in the presence of MGDG than with PC. Nanoparticles forming in the presence of MGDG are shaped as a tubule, have a constant diameter and a strongly pronounced internal channel. In contrast, PC has no such properties; this lipid is unable to fully integrate in tubular nanoparticles. Based on electron-microscopy data the range of weight ratio of MGDG-Chol-CD was determined as a 1-10:2:3 that provided most effective formation of tubular nanoparticles. Different methods of incorporation of model antigens in complex MGDG-Chol-CD were studied. Influenza haemagglutinin and neuraminidase from commercial vaccine "Influvac" and pore forming protein YompF from Yersinia pseudotuberculosis were used as model antigens. From 54 to 72% of protein of "Influvac" vaccine and 88-92% of YompF were incorporated in supramolecular complexes depending on the method of incorporation. The loss of functional activity of haemagglutinin of vaccine "Influvac" was the result of applying ultrasonic disintegration for incorporation of this protein in complex MGDG-Chol-CD. YompF incorporation in MGDG-Chol-CD complex led to the increased diameter of tubular particles, in the same time incorporation of vaccine "Influvac" antigens produced the "cap" formation at the end of tubules. The possibility of a described supramolecular complex MGDG-Chol-CD to be a carrier for subunit bacterial and viral antigens is shown.

[Nitrogen oxide is involved in the regulation of the Fe-S cluster assembly in proteins and the formation of biofilms by Escherichia coli cells].

The functions of nitrogen oxide (NO) in the regulation of the reversible processes of Fe-S cluster assembly in proteins and the formation of Escherichia coli biofilms have been investigated. S-nitrosoglutathione (GSNO) and crystalline nitrosyl complexes of iron with sulfur-containing aliphatic ligands cisaconite (CisA) and penaconite have been used as NO donors for the first time. Wild-type E. coli cells of the strain MC4100, mutants deltaiscA and deltasufA, and the double paralog mutant deltaiscA/sufA with deletions in the alternative pathways of Fe2+ supply for cluster assembly (all derived from the above-named strain) were used in this study. Plankton growth of bacterial cultures, the mass of mature biofilms, and the expression of the SoxRS[2Fe-2S] regulon have been investigated and shown to depend on strain genotype, the process of Fe-S cluster assembly in iron-sulfur proteins, NO donor structure, and the presence of Fe2+ chelator ferene in the incubation medium. The antibiotic ciprofloxacine (CF) was used as an inhibitor of E. coli biofilm formation in the positive control. NO donors regulating Fe-S cluster assembly in E. coli have been shown to control plankton growth of the cultures and the process of mature biofilm formation; toxic doses of NO caused a dramatic (3- to 4-fold) stimulation of cell entry into biofilms as a response to nitrosative stress; NO donors CisA and GSNO in physiological concentrations suppressed the formation of mature biofilms, and the activity of these compounds was comparable to that of CE Regulation of both Fe-S cluster assembly in iron-sulfur proteins and biofilm formation by NO is indicative of the connection between these processes in E. coli.

[Enhancing the immunogenic activity of influvac vaccine in the use of adjuvant TI complexes modified by echinochrome A].

The self-assembly of marine macrophyte glycolipids, holothurian saponin, and cholesterol gave rise to nanoscale morphological structures called tubular immunostimulating (TI) complexes. Whether the latter could be used on the basis of vaccine preparations containing the influenza virus subunit antigens was studied. There was an obvious increase in the immunogenicity of influenza virus hemagglutinin when the experimental animals were immunized with this antigen as part of TI complexes. It was shown that the adjuvant activity of the TI complex to influenza virus hemagglutinin could be enhanced by adding the known antioxidant echinochrome A from a sand-dollar (Echinarachnius parma) to the matrix of the TI complex.

[Immunogenic and protective properties of nanosized constructs based on tubular immunostimulating complexes and pore forming protein of Yersinia pseudotuberculosis].

AIM: Evaluation of immunogenic and protective properties of constructs based on subunit porin antigen from Yersinia pseudotuberculosis, immunostimulating complexes (ISCOM) and tubular immunostimulating (TI) complexes. MATERIALS AND METHODS: Porin antibodies and blood serum cytokines were determined by using EIA. Porin-specific cell immunity was evaluated by DTH reaction inflammation index. Protective activity of porin formulations was determined by measuring specific gravity of animals surviving Yersinia pseudotuberculosis lethal challenge. RESULTS: Porin in TI complexes develops higher immunogenicity when compared with individual protein or protein with complete Freunds adjuvant. Porin in TI complexes develops higher protective activity, inhibits interferon synthesis in mice. Incorporation of porin into TI complexes results in neutralization of porin suppressive activity against DTH mechanisms and interferon system. CONCLUSION: TI complexes may be used as perspective carriers for bacterial antigens. TI complexes have adjuvant properties and can provide protective properties to porin vaccine constructs.

[Effect of phenol on Yersinia pseudotuberculosis bacteria cultivated in various media].

AIM: Study of bactericidal effect of phenol on Yersinia pseudotuberculosis produced in various nutrient media. MATERIALS AND METHODS: Bacteria were produced in nutrient broth (NB) and NB with glucose (NB+Glu) or galactose (NB+Gal) at 8 degrees C. Effect of phenol on bacteria was evaluated by changes in optical density of suspension and quantity of viable cells, and by staining of cells with ethidium bromide. Lipids were analyzed by thin-layer and gas-liquid chromatography, gas-liquid- chromatography--mass-spectrometry, differential scanning calorimetry; lipopolysaccharides (LPS)--by electrophoresis in polyacrylamide gel in the presence of sodium dodecylsulfate (SDS-PAGE). RESULTS: Survival rate of bacteria is dependent on phenol concentration, biocide treatment time and parameters of cell cultivation. Addition of glucose or galactose into the nutrient medium increases the resistance of Yersinia against phenol. Bacterial cultures are heterogeneous in the resistance against phenol independently of the production parameters. Phenol causes damage in outer bacterial membrane, as evidenced by accumulation of lysophosphatidylethanolamine in the cell, the main product of enzyme activity of membrane-bound phospholipase A, and release into the cultural medium of part of LPS. Treatment by phenol in bactericidal concentration is accompanied by changes in phospholipidic and fatty acid composition of bacterial cell envelope. CONCLUSION: New data are obtained on environmental factors that contribute to the increase of resistance of bacteria against phenolic biocides.