48 research outputs found

    Cytokinesproduction by blood immune cells in patients of different age groups with invasive ductal carcinoma of no special type and lymphatic metastases

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    The aim of this study was to evaluate production of cytokines by the blood immune cells in patients of different age groups with invasive non-specified type mammary ductal carcinoma, with or without metastases. Production of cytokines by periphery blood immunocompetent cells, either spontaneous and stimulated with polyclonal activators, was assessed in 82 patients with invasive mammary ductal carcinoma. The concentrations of IL-6, IL-8, IL-10, IL-17, IL-18, IL-1p, IL-1ra, TNFa, IFNy, G-CSF, GM-CSF, VEGF и MCP-1 were determined by solid-phase enzyme-linked immunosorbent assay. The patients were divided into 2 age groups: the first group consisted of 48 patients from 45 to 60 years old; the second group consisted of 34 older patients (61 to 75 years old). Metastases in local lymph nodes were documented in twenty patients from the first group and nine patients from the second group. The younger patients (45-60 years old) with metastases in local lymph nodes showed higher polyclonal activation index of IL-4 and IL-1ra production, when compared to the patients without lymphatic metastases. As for the older patients (61 to 75 years old), their polyclonal activation index of IL-6, IL-8, IL-1ra, G-CFS, GM-CSF production was significantly lower in cases of local lymph nodes metastases. The latter was due to higher level of spontaneous production, which suppressed the influence of polyclonal activators. The index of polyclonal activation upon production of cytokines in patients with lymphatic metastases was shown to be significantly higher for the age group of 45 to 60 years than in the age group of 61 to 75 years old. This fact suggested a highly stimulating effect of polyclonal activators in patients younger than 60 years. It was found that correlation between the index of polyclonal activation of cytokine production, and the indexes of ER, PR, HER2/NEU and Ki-67 receptor expression, which are used for the determination of molecular genetic subtype of the tumor, differ significantly for the distinct age groups

    МЕТАЛЛОУГЛЕРОДНЫЕ НАНОКОМПОЗИТЫ НА ОСНОВЕ ПИРОЛИЗОВАННОГО ПОЛИАКРИЛОНИТРИЛА

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    The electronic structure and geometry of metal−carbon nanocomposites based on the pyrolyzed poliacrylonitril (PPAN) with Cu, Si, Fe, Co, Ni atoms using the DFT method have been theoretically studied. The effect of nitrogen on the stability of PPAN and its conductivity has been determined. The electrophysical properties and structure of metal nanocomposites have been studied using the XFA method. The composites have been produced by IR heating. We suggest that metal−carbon nanocomposites form due to the special processing of the (PAN−MeR) samples. Metal nanoparticles are regularly dispersed in the nanocristalline matrix of PPAN. The conductivity of this metal−carbon nanocomposites has an activation character and varies from10−1 to 103 Om/sm depending on synthesis temperature (T = 600—900 °С). The results of theoretical and experimental research are in good agreement. Теоретически изучена структура и электронно−энергетическое строение металлоуглеродных нанокомпозитов на основе пиролизованного полиакрилонитрила (ППАН), легированного атомами меди, кремния, железа, кобальта, никеля, с использованием неэмпирического метода функционала плотности. Определено влияние азота, входящего в состав ППАН, на стабильность нанокомпозитов и их проводящее состояние. Методом РФА экспериментально изучена структура, а также исследованы электрофизические свойства нанокомпозитов, полученных под действием ИК−нагрева на основе ПАН и соединений соответствующих металлов. Установлено, что в результате обработки прекурсоров, представляющих собой системы ПАН− МеR (где Ме — Cu, Co, Ni, Fe; R — хлорид ион, ацетат−ион), формируются металлоуглеродные нанокомпозиты, в которых наночастицы металлов равномерно распределены в нанокристаллической углеродной матрице на основе ППАН. Показано, что электропроводность металлоуглеродных нанокомпозитов носит активационный характер, определяется температурой синтеза нанокомпозитов и изменяется от 10−1 до 103 См/см в интервале температур получения Т = 600÷900 °С. Энергия активации проводимости также определяется температурой синтеза, что объясняется изменениями в структуре и химическом составе получаемых материалов. Установлено, что результаты расчета энергетических характеристик нанокомпозита согласуются с экспериментом.

    Cloning and characterization of miRNAs from maize seedling roots under low phosphorus stress

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    MicroRNAs (miRNAs) are a class of small, non-coding regulatory RNAs that regulate gene expression by guiding target mRNA cleavage or translational inhibition in plants and animals. In this study, a small RNA library was constructed to identify conserved miRNAs as well as novel miRNAs in maize seedling roots under low level phosphorus stress. Twelve miRNAs were identified by high throughput sequencing of the library and subsequent analysis, two belong to conserved miRNA families (miRNA399b and miRNA156), and the remaining ten are novel and one of latter is conserved in gramineous species. Based on sequence homology, we predicted 125 potential target genes of these miRNAs and then expression patterns of 7 miRNAs were validated by semi-RT-PCR analysis. MiRNA399b, Zma-miR3, and their target genes (Zmpt1 and Zmpt2) were analyzed by real-time PCR. It is shown that both miRNA399b and Zma-miR3 are induced by low phosphorus stress and regulated by their target genes (Zmpt1 and Zmpt2). Moreover, Zma-miR3, regulated by two maize inorganic phosphate transporters as a newly identified miRNAs, would likely be directly involved in phosphate homeostasis, so was miRNA399b in Arabidopsis and rice. These results indicate that both conserved and maize-specific miRNAs play important roles in stress responses and other physiological processes correlated with phosphate starvation, regulated by their target genes. Identification of these differentially expressed miRNAs will facilitate us to uncover the molecular mechanisms underlying the progression of maize seedling roots development under low level phosphorus stress

    Biotechnological Perspective of Reactive Oxygen Species (ROS)-Mediated Stress Tolerance in Plants

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    All environmental cues lead to develop secondary stress conditions like osmotic and oxidative stress conditions that reduces average crop yields by more than 50% every year. The univalent reduction of molecular oxygen (O2) in metabolic reactions consequently produces superoxide anions (O2•−) and other reactive oxygen species (ROS) ubiquitously in all compartments of the cell that disturbs redox potential and causes threat to cellular organelles. The production of ROS further increases under stress conditions and especially in combination with high light intensity. Plants have evolved different strategies to minimize the accumulation of excess ROS like avoidance mechanisms such as physiological adaptation, efficient photosystems such as C4 or CAM metabolism and scavenging mechanisms through production of antioxidants and antioxidative enzymes. Ascorbate-glutathione pathway plays an important role in detoxifying excess ROS in plant cells, which includes superoxide dismutase (SOD) and ascorbate peroxidase (APX) in detoxifying O2•−radical and hydrogen peroxide (H2O2) respectively, monodehydroascorbate reductase (MDHAR), dehydroascorbate reductase (DHAR) and glutathione reductase (GR) involved in recycling of reduced substrates such as ascorbate and glutathione. Efficient ROS management is one of the strategies used by tolerant plants to survive and perform cellular activities under stress conditions. The present chapter describes different sites of ROS generation and and their consequences under abiotic stress conditions and also described the approaches to overcome oxidative stress through genomics and genetic engineering

    Skin Microbiota in Contact Sports Athletes and Selection of Antiseptics for Professional Hygiene

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    © 2019 Dilyara S. Martykanova et al. Background. The aim of this study was to assess changes in skin microbiota of wrestlers during training sessions and to determine the sensitivity of hemolytic bacterial isolates to antiseptics. Methods. The main skin bacterial isolates obtained from the skin of 15 wrestlers were identified by cultivation method, with the following MALDI Biotyper and 16S rRNA gene sequencing methods. The sensitivity of hemolytic isolates to antiseptics (Veltosept-2, Cutasept F, Chlorhexidine, Miramistin, and Hydrogen Peroxide) was evaluated by measuring the size of bacterial growth inhibition zone on agar plates. Results. Opportunistic bacteria of the species Bacillus cereus, Staphylococcus aureus, S. epidermidis, and S. saprophyticus were the most commonly found species in skin microbiota of wrestlers before and after training sessions. Representatives of all these species mostly had a hemolytic activity. An alcohol-containing antiseptic Veltosept-2 showed the strongest inhibitory effect on the bacterial isolates of athletes' skin microbiota most frequently detected in this study. Conclusions. The general increase in the bacterial colonization of wrestlers' skin, as well as the presence of hemolytic forms of opportunistic bacteria in cutaneous microbiota, indicates dysbiotic changes and a decrease in the protective features of the host organism. Veltosept-2 application can reduce the incidence of skin infections in contact sports athletes with the highest efficiency

    Skin Microbiota in Contact Sports Athletes and Selection of Antiseptics for Professional Hygiene

    No full text
    © 2019 Dilyara S. Martykanova et al. Background. The aim of this study was to assess changes in skin microbiota of wrestlers during training sessions and to determine the sensitivity of hemolytic bacterial isolates to antiseptics. Methods. The main skin bacterial isolates obtained from the skin of 15 wrestlers were identified by cultivation method, with the following MALDI Biotyper and 16S rRNA gene sequencing methods. The sensitivity of hemolytic isolates to antiseptics (Veltosept-2, Cutasept F, Chlorhexidine, Miramistin, and Hydrogen Peroxide) was evaluated by measuring the size of bacterial growth inhibition zone on agar plates. Results. Opportunistic bacteria of the species Bacillus cereus, Staphylococcus aureus, S. epidermidis, and S. saprophyticus were the most commonly found species in skin microbiota of wrestlers before and after training sessions. Representatives of all these species mostly had a hemolytic activity. An alcohol-containing antiseptic Veltosept-2 showed the strongest inhibitory effect on the bacterial isolates of athletes' skin microbiota most frequently detected in this study. Conclusions. The general increase in the bacterial colonization of wrestlers' skin, as well as the presence of hemolytic forms of opportunistic bacteria in cutaneous microbiota, indicates dysbiotic changes and a decrease in the protective features of the host organism. Veltosept-2 application can reduce the incidence of skin infections in contact sports athletes with the highest efficiency
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