Vol 164, No 6 (2018)

In experiments on narcotized rats, BP in the left femoral artery as well as local electrical potential and electrical impedance of the symmetric segment of the right femoral artery were simultaneously recorded in situ with two extracellular nonpolarizable Ag/AgCl electrodes located along the artery at a distance of 3 mm from each other. The pulsatile arterial electrical potentials with amplitude of 100-200 μV and duration of about 50 msec were recorded, which coincided with the front of BP wave corrected for a 10-msec delay of the pressure transducer. Under normal conditions, the pulsatile oscillations of arterial electroimpedance were in-phase with BP oscillations, so the rising phase of BP was paralleled by elevation of electroimpedance reflecting constriction of the arterial segment. This finding is viewed as indicative of periodic myogenic Ostroumov—Bayliss effect triggered by arterial pulse. After local application of tetrodotoxin (3×10^—7 М), procaine (0.5%), or lidocaine (spray 10%) to isolated arterial segment, its electroimpedance oscillated out-of-phase with BP, so the changes of electroimpedance were similar to the response of a passive elastic tube to pulsatile BP. The applied agents completely (tetrodotoxin) or pronouncedly (procaine, lidocaine) inhibited the pulsatile arterial electrical potential. The present data indicate the possibility of passive and active modes of arterial pulsing, which differ by the amplitude of pulsatile arterial electrical potential as well as by phasic relations between BP and electroimpedance. The possible physiological role of various modes of pulsing in major arteries is discussed.

We propose a new approach to optimization of electrical stimulation of the vestibular nerve and improving the transfer function of vestibular implant. A mathematical model of the vestibular organ is developed based on its anatomy, the model premises, 3D-analysis of MRI and CT images, and mathematical description of physical processes underlying propagation of alternating electric current across the tissues of vestibular labyrinth. This approach was tested in vitro on the rat vestibular apparatus and had been examined anatomically prior to the development of its mathematical model and equivalent electrical circuit. The experimental and theoretical values of changes of the gain—phase characteristics of vestibular tissues in relation to location of the reference electrode obtained in this study can be used to optimize the electrical stimulation of vestibular nerve.

We performed a complex analysis of total and fetal extracellular DNA, 8 cytokines (IL-2, IL-4, IL-6, IL-8, IL-10, granulocyte-macrophage CSF, IFNγ, and TNFα) in blood plasma obtained from women with preeclampsia prior to labor onset. Total (sensitivity 89.47%, specificity 93.75%) and fetal extracellular DNA (sensitivity 73.68%, specificity 87.5%) were the most accurate parameters determining preeclampsia. We revealed a high correlation (p=3×10^—6) between total and fetal extracellular DNA levels in the group of preeclampsia. Preeclampsia significantly increased the levels of macrophage factors IL-10 and IL-6. These cytokines significantly correlated with the levels of total and fetal extracellular DNA in the preeclampsia group. In the control group, such correlations were not observed. These findings obtained suggest that preeclampsia develops upon increased macrophage activity, leading to destruction of the placenta trophoblast cells.

We studied the role of the carrier status for polymorphic loci of genes encoding estrogen receptors (ESR1), endothelial NO synthase (eNOS), and apolipoprotein E (APOE4) and products of their expression nitrogen oxide (NO) and apolipoprotein (ApoE) in the development of arterial hypertension in men. Conventionally healthy volunteers and 149 men with clinical manifestations of stage I-II arterial hypertension were examined. In men with arterial hypertension, the frequency of minor allele A of ESR1 gene was higher (27.5 vs. 9.5% in the reference group; χ²=4.43, p=0.04). The level of NO in the peripheral blood was also higher in the main group (χ²=3.93, p=0.047). The increase in NO concentration did not depend on the presence of polymorphic genotypes (GG and GT) of eNOS gene, but the decrease in ApoE level in blood serum was associated with TC genotype of APOE4 gene (p=0.04). Our results suggest that minor allele A of ESR1 gene is associated with the development of arterial hypertension in men. Reduced content of ApoE in blood serum of men with arterial hypertension was associated with APOE4 gene polymorphism. However, increased level of NO did not depend on polymorphic genotypes GG and GT of eNOS gene. These polymorphisms are of specific interest as additional markers of genetic predisposition to the development of arterial hypertension in middle-age men.

Hemorrhagic changes after subcutaneous injection of autologous bone marrow multipotent mesenchymal cells with transfected GFP gene and additionally stained cell membranes to WAG rats in the projection of ligated femoral vein were studied by fluorescent microscopy. Hemorrhages in tissues with experimental acute local venous occlusion were caused by a combination of venous hypertension with inflammation around the foreign body — the ligature used for ligation of the vein. Fibrin found in tissues together with erythrocytes in the hemorrhages could stimulate the formation of granulations and new vessels instead of damaged or thrombosed ones. Multipotent mesenchymal stromal cells and their detritus getting into the regional lymph nodes initiated immune reactions morphologically confirmed by stubborn hypertrophy and hyperplasia of the lymphoid nodules, hemorrhages, and manifest diapedesis of erythrocytes to the organ parenchyma and sinus system.

We compared the efficiency of delivery of plasmid DNA (active ingredient concentration 1 mg/kg) that provides production of nerve growth factor (NGF) after intravenous administration to rats and after administration by hydroporation. The method of hydroporation ensured plasmid penetration into the liver tissue and lengthened the time of its detection in the organ. DNA concentration in 1 h after its introduction by hydroporation or intravenous route was 0.7 and 0.05 ng/mg tissue, respectively. The use of this transfection method ensured preservation of NGF DNA in the liver tissue at a level of 0.24 ng/mg of tissue 1 day after administration of the plasmid construct, while after intravenous administration, expression of the analyzed DNA was not detected in blood and liver samples. After hydroporation, the maximum of relative normalized expression of cDNA (270 rel. units) was observed after 4 h, and after 1 day, this parameter decreased to 35 rel. units. Introduction of plasmid DNA of NGF by hydroporation prevented the development of disorders of neuromuscular conduction in a rats model of toxic neuropathy induced by subacute administration of malathion in a dose of 0.5 LD₅₀.

Mature normotensive male WAG rats and stress-sensitive hypertensive ISIAH rats were exposed to “everyday life stress” modelled by alternation of immobilization and adaptation. Increased LPO intensity (increased content of substrates with unsaturated double bonds and primary and secondary LPO products) and reduced content of some antioxidant protection components (reduced retinol level and GSH/GSSG ratio) were revealed in the blood of ISIAH rats. These changes correlated with elevated mean BP. The results can reflect the significant role of LPO changes in the pathogenesis of stress-induced arterial hypertension.

In patients with type 2 diabetes mellitus, serum activities of MMP-2 and MMP-7 were substantially decreased in comparison with apparently healthy individuals. At the decompensation stage, along with the increased content of glucose and glycated hemoglobin, a pronounced (3-fold) increase in proinsulin concentration was observed. On the contrary, MMP activity and C-peptide concentration decreased at this stage. The ratio of proinsulin concentration to MMP activity at the stages of diabetes mellitus compensation and subcompensation was approximately 1:50, while at the stage of decompensation it was 1:12. Thus, the ratio of these blood serum parameters can be used as an additional diagnostic marker of diabetes decompensation and severity of its complications.

Reduced proliferation and enhanced apoptosis of β cells in diabetes mellitus are associated with a deficiency of brain-derived neurotrophic factor (BDNF). Low-molecular weight compounds similar to different BDNF loops were synthesized at the V. V. Zakusov Research Institute of Pharmacology. They produce a potentiating effect on TrkB phosphorylation, but differently activate post-receptor signaling pathways. We compared their effects on the severity of streptozotocin-induced diabetes mellitus in C57Bl/6 mice. The antidiabetic effect (estimated from the degree of hyperglycemia and dynamics of body weight) was typical of GSB-214 compound that selectively activates PI3K/Akt. This activity was not revealed in GTS-201, selective activator of MAPK/Erk. GSB-106 compound activating both signaling pathways exhibited weak antidiabetic activity. Our results indicate that the antidiabetic effect is mainly related to activation of the PI3K/Akt signaling pathway.

We studied differences in the production of pro- and anti-inflammatory cytokines and IRF3 transcription factor by peritoneal macrophages from mice of opposite strains CBA/J and C57Bl/6 and the effect of 60-kDa oxidized dextran on these parameters. Macrophages from C57Bl/6 mice were mainly characterized by the production of proinflammatory cytokines TNFα, IL-12, and MCP-1 (markers of M1 polarization). By contrast, CBA/J mice exhibited a relatively high level of anti-inflammatory cytokine IL-10 and lower expression of proinflammatory cytokines (M2 phenotype). IRF3 content in peritoneal macrophages of CBA/J mice was higher than in C57Bl/6 mice. Oxidized dextran decreased the expression of IRF3 upon stimulation of cells from CBA/J mice with LPS, but increased this process in C57Bl/6 mice. Despite a diversity of oxidized dextran-induced changes in cytokine production, the data confirm our hypothesis that this agent can stimulate the alternative activation of macrophages.

A project of an experimental recombinant vector vaccine for prevention of diseases caused by pathogenic streptococci based on ScaAB lipoprotein of Streptococcus agalactiae and a coldadapted strain of live influenza vaccine as a vector was developed. The sequence of ScaAB lipoprotein was analyzed and fragments forming immunodominant epitopes were determined. Chimeric molecules of influenza virus hemagglutinin H7 carrying insertions of bacterial origin were constructed. Based on the results of simulation, the most promising variants were selected; they represented fragments of lipoprotein ScaAB lacking N-terminal domain bound to hemagglutinin via a flexible linker. These insertions should minimally modulate the properties of the influenza strain, while retaining potential immunogenicity to a wide group of pathogenic streptococci.

We studied expression profile of microRNA and their target genes in human umbilical vein endothelial cells (HUVEC) during proinflammatory activation with TNFα. TNFα-induced activation of HUVEC was accompanied by a decrease in the expression of CDKN1B, HIST1H3D, and OIP5 genes that are the common target genes for mature microRNA encoded by MIR221, MIR222, and MIR181B1 genes, whose expression increases in activated cells. Proteins encoded by HIST1H3D and OIP5 genes are associated with chromatin compaction and cell cycle. Our results suggest that fetal endothelial microRNA can appear in the maternal blood during various pathological states, e.g., under conditions of preeclampsia.

Antimetastatic effect of the liposomal form of recombinant lactaptin RL2 (a proteolytic fragment of human breast milk κ-casein; 8.6 kDa) was studied in A/Sn mice after intravenous transplantation of GA-1 tumor with high rate of liver metastases. Tumor growth in the liver was found in all mice. In animals dying early, the tumors were presented by multiple nodes of about the same size; in mice dying later, the tumors in the liver were presented by just few large nodes formed by cells that survived chemotherapy. A single intravenous injection of RL2 lactaptin in liposomes prolonged lifespan of animals with liver metastases of GA-1 tumor by 1.5 times in comparison with that in untreated animals.

Nanocrystalline particles of chitin in the form of hydrosol in a concentration of 0.63 mg/ml have no effect on aggregation of human platelets and clotting time of platelet-poor plasma in coagulation tests. ADP-induced aggregation of human platelets was inhibited by these nanoparticles in concentrations of 0.63 and 1.00 mg/ml in comparison with the control. Intravenous administration of nanoparticles in a dose of 1 mg/kg to guinea pigs produced no anticoagulant effect. The nanocrystalline particles of chitin can be of interest as potential drug delivery systems.

Biological compatibility of a tissue engineered construct of the trachea (synthetic scaffold) and allogenic mesenchymal stem cells was studied on laboratory Papio hamadryas primates. Subcutaneous implantation and orthotopic transplantations of tissue engineered constructs were carried out. Histological studies of the construct showed chaotically located filaments and mononuclear cells fixed to them. Development of a fine connective tissue capsule was found at the site of subcutaneous implantation of the tissue engineered construct. The intact structure of the scaffold populated by various cell types in orthotopic specimens was confirmed by expression of specific proteins. The results indicated biological compatibility of the tissue engineered construct with the mesenchymal stem cells; no tissue rejection reactions were recorded; simulation of respiratory disease therapy on Papio hamadryas proved to be an adequate model.

The possibility of sphingosine-1-phosphate production by induced pluripotent stem cells is examined to assess their potential in treatment of sepsis. The hematopoietic embryoid bodies were derived from the culture of 6-day-old differentiated induced pluripotent stem cells. These embryoid bodies secreted sphingosine-1-phosphate, an important bioactive lipid that regulates integrity of the pulmonary endothelial barrier, prevents elevation of its permeability, and impedes the formation of stress fibers in human endotheliocytes derived from umbilical vein. The data attest to potentiality of induced pluripotent stem cells in treatment of sepsis.

The expression of apoptosis regulators (proapoptotic protein Bad and anti-apoptotic protein Bcl-2) was analyzed and Bcl-2/Bad ratio in the follicular apparatus of the rat ovary was determined on day 3 after hyperthermia (rectal temperature 43.5°C). Hyperthermia in the catabolic phase leads to different degrees of activation of the molecular “switches” of apoptosis in cells of ovarian follicular epithelium. This was seen from increased intensity of immunohistochemical staining for Bad protein against the background of more pronounced expression of Bcl-2 protein. On day 3 after exposure to hyperthermia, Bcl-2/Bad ratio increased, which reflects antiapoptotic protection of cells and conditions for blockade of mitochondrial pathway of apoptosis in the follicular apparatus of the ovaries during the acute period after hyperthermia.

We propose an original methodological approach to discrimination of newly isolated Salmonella enterica strains with the use of Dienes test. Dienes test is used for identification of P. vulgaris and P. mirabilis strains. It consists in growth suppression by mobile bacterial strain cultures and the formation of a demarcation line (Dienes line) between the strains growing towards each other. Similarities and differences between salmonella phagotyping method and Dienes test-based discrimination of the strains are detected. The studied sample of salmonellas was divided into 12 phagotypes. Cluster analysis has shown that most of the salmonella strains could not be clusterized by both methods. Discrimination by different methods has shown that the largest clusters contain the same strains. Clusterization of salmonella strains by different methods shows moderate congruency. Rand index used for comparison of the results of the sample clusterization by different methods is 0.88. High heterogeneity of salmonella strains is presumably explained by heterogeneity of antagonism factors within the S. enterica species. Intraspecies antagonism is essential for limitation of the horizontal gene transfer in closely related strains and for increase of the genetic heterogeneity of salmonella population in the host.

Circular RNA are a family of covalently closed circular RNA molecules, formed from pre-mRNA of coding genes by means of splicing (canonical and alternative noncanonical splicing). Maturation of circular RNA is regulated by cis- and trans-elements. Complete list of biological functions of these RNA is not yet compiled; however, their capacity to interact with specific microRNA and play a role of a depot attracts the greatest interest. This property makes circular RNA active regulatory transcription factors. Circular RNA have many advantages over their linear analogs: synthesis of these molecules is conservative, they are universal, characterized by clearly determined specificity, and are resistant to exonucleases. In addition, the level of their expression is often higher than that of their linear forms. It should be noted that expression of circular RNA is tissue-specific. Moreover, some correlations between changes in the repertoire and intensity of expression of circular RNA and the development of some pathologies have been detected. Circular RNA have certain advantages and can serve as new biomarkers for the diagnosis, prognosis, and evaluation of response to therapy.