Effect of influenza A virus and bacterial lipopolysaccharide on proliferation and expression of cytokines and other cellular factors in the endothelial cell line ECV-304

Viral infection and bacterial lipopolysaccharide (LPS) cause endothelial-cell dysfunction. The aim of the current study was to investigate the effect of influenza A virus and LPS from Escherichia coli on the proliferative activity and gene expression of cytokines and cellular factors (TNFα, TGFβ, IFN-γ, MMP-9, NF-κB, Rho A, eNOS, and iNOS) in human endothelial cells ECV-304. It was found that ECV-304 cells infected with very low infectious doses of influenza virus acquired the capacity for the long-term active proliferation (over eight passages). Addition of LPS from E. coli reduced the virus-stimulated cell proliferation. It was shown that influenza virus and LPS affected the gene expression of cytokine and other cellular factors. When endothelial cells were infected with influenza A virus in the presence of LPS, there was a significant increase in the expression of several genes and the expression pattern of certain genes was modified. Expression of MMP-9 gene inhibited by the virus and LPS separate exposure significantly increased during the first day after addition of the virus and LPS simultaneously. The same was true for the IFN-γ gene expression. TNFα gene was active only for 1–3 days whereas the expression of TGFβ, eNOS, iNOS, NF-κB and Rho A genes increased significantly on the fifth day, as it was observed with the cells treated with LPS only. Thus, the influenza A virus and LPS change the physiological state of endothelial cells. This occurred during various time periods (as well as at various degrees of viral infection) produced by different cellular factors and, possibly, involved different signaling pathways.     

<Emphasis Type="Italic">Lactobacillus paracasei</Emphasis> strain 06TCa19 suppresses inflammatory chemokine induced by <Emphasis Type="Italic">Helicobacter pylori</Emphasis> in human gastric epithelial cells

Helicobacter (H.) pylori infection is an important risk factor for gastric cancer that causes gastric inflammation. Inflammatory chemokines such as interleukin (IL)-8 and regulated on activation normal T cell expressed and secreted (RANTES) are elevated in the gastric mucosa by H. pylori. This study aimed to investigate the effects of Lactobacillus paracasei strain 06TCa19, a probiotic strain, on IL-8 and RANTES expression and production induced by H. pylori using human gastric epithelial cell lines. Strain 06TCa19 was shown to suppress H. pylori-mediated elevation of gene expression related to these chemokines in MKN45 cells. The strain also suppressed the increase in IL-8 and RANTES products induced by H. pylori in AGS cells as well as in MKN45 cells. In MKN45 cells inoculated with H. pylori, strain 06TCa19 was shown to downregulate the activation of NF-κB and p38 MAPK signaling pathways. Additionally, the level of the CagA virulence protein of H. pylori in the MKN45 cells and the number of viable H. pylori adhering to MKN45 cells decreased with the addition of strain 06TCa19. Moreover, the strain 06TCa19 notably increased lactic acid in the supernatant of MKN45 cells. Thus, lactic acid released from strain 06TCa19 might have inhibited the adhesion of H. pylori to MKN45 cells and prevented the insertion of H. pylori CagA into the cells, and elevation of IL-8 and RANTES genes and proteins might be suppressed by downregulating the NF-κB and p38 MAPK pathways. Therefore, use of strain 06TCa19 may prevent H. pylori-associated gastric inflammation.     

Microbioluminescent study of the general toxicity and mutagenicity of pollutants

Bacterial bioluminescence was applied to detection of general toxicity (MIT test) and genotoxicity (SOS-lux test) of some chemicals, seawater, and fresh water. The SOS-induced luminescence of E. coli WP2s (cda::luxCDABE) cells was higher than in E. coli C 600 (cda::luxCDABE) at 37°C and pH 6.5. The mutagenic effect of N-methyl-N′-nitro-N-nitrosoguanidine (MNNG), mitomycin C, and hydrogen peroxide determined from the induction of E. coli WP2s cell luminescence was detected at lower concentrations than in the assessment of reversion frequencies. General toxicity was demonstrated by using luminescence inhibition for hydrogen peroxide, Zn²⁺, and Cd²⁺ at low concentrations. Regions of the Krasnodar Krai where sea and fresh waters exerted toxic action on luminescence were determined by the microbioluminescent method.     

Molecular characterization of the <Emphasis Type="Italic">Aspergillus fumigatus NCS-1</Emphasis> homologue,NcsA

Here, we characterize the Aspergillus fumigatus homologue ncsA Neuronal Calcium Sensor. We showed that ncsA is not an essential gene and ?ncsA growth was decreased in the presence of EGTA and SDS. Furthermore, the ?ncsA mutant is more resistant to calcium chloride. NcsA:mRFP localizes to the cytoplasm and its cellular localization is not affected by the cellular response to either calcium chloride or EGTA. The ?ncsA mutant strain is more sensitive to voriconazole, itraconazole, and amphotericin. Polar growth in the ΔncsA mutant was also considerably more affected by lovastatin than in the wild type strain. The Spitzenkörper can be visualized in both strains and although the vacuolar system does not seem to be very different, there is an increase in the staining intensity on the germling surface of the ?ncsA strain. NcsA promotes pmcA and pmcB expression and therefore there is a reduced expression of these ion pumps in the ΔncsA mutant background, and also of other genes involved in the response to calcium in A. fumigatus. The ncsA inactivation mutation is not causing loss of virulence in a low dose murine infection when compared to the corresponding wild type strain.     

Reliability of the search for 19 common mutations in the <Emphasis Type="Italic">CFTR</Emphasis> gene in Russian cystic fibrosis patients and the calculated frequency of the disease in Russian Federation

A study of Russian cystic fibrosis (CF) patient DNA was conducted to assess the incidence frequency of 19 mutations, namely CFTRdele2,3(21kb), F508del, I507del, 1677delTA, 2143delT, 2184insA, 394delTT, 3821delT, L138ins, 604insA, 3944delGT, G542X, W1282X, N1303K, R334W, and 3849 + 10kbC > T, S1196X, 621 + 1g > t, and E92K of the CFTR gene. We also sought to determine the estimated CF frequency in Russian Federation. In addition, we determined the total information content of the approach for 19 common mutations registration in the CFTR gene, 84.6%, and the allelic frequencies of the examined mutations: three mutations were observed with a frequency exceeding 5% (F508del, 53.98%, E92K, 6.47%, CFTRdele2,3(21kb), 5.35%); other mutations were observed with frequencies ranging from 0.13 to 3.0%. The CF population carrier frequency was 1 in 38 subjects, while the predicted CF frequency was 1 in 5776 newborns.     

Identification of suitable reference genes for real-time quantitative PCR analysis of hydrogen peroxide-treated human umbilical vein endothelial cells

Background

Oxidative stress can induce cell injury in vascular endothelial cells, which is the initial event in the development of atherosclerosis. Although quantitative real-time polymerase chain reaction (qRT-PCR) has been widely used in gene expression studies in oxidative stress injuries, using carefully validated reference genes has not received sufficient attention in related studies. The objective of this study, therefore, was to select a set of stably expressed reference genes for use in qRT-PCR normalization in oxidative stress injuries in human umbilical vein endothelial cells (HUVECs) induced by hydrogen peroxide (H₂O₂).

Results

Using geNorm analysis, we found that five stably expressed reference genes were sufficient for normalization in qRT-PCR analysis in HUVECs treated with H₂O₂. Genes with the most stable expression according to geNorm were U6, TFRC, RPLP0, GAPDH, and ACTB, and according to NormFinder were ALAS1, TFRC, U6, GAPDH, and ACTB.

Conclusion

Taken together, our study demonstrated that the expression stability of reference genes may differ according to the statistical program used. U6, TFRC, RPLP0, GAPDH, and ACTB was the optimal set of reference genes for studies on gene expression performed by qRT-PCR assays in HUVECs under oxidative stress study.

     

Hydrogen peroxide-induced salt tolerance in the <Emphasis Type="Italic">Arabidopsis</Emphasis> salicylate-deficient transformants <Emphasis Type="Italic">NahG</Emphasis>

The effect of hydrogen peroxide treatment on the salt tolerance of wild-type Arabidopsis thaliana L. plants (Col-0) and plants transformed with the bacterial salicylate hydroxylase gene (NahG) was studied. The base tolerance to salt stress caused by 200 mM of NaCl in solution culture was higher in plants with the NahG genotype in comparison with the wild-type plants. Growth inhibition was observed for wild-type plants under the action of exogenous hydrogen peroxide, which was not observed for the NahG transformants; salt tolerance increased in the both types of plants after treatment, which was assessed based on the growth indicators and the ability to preserve the chlorophyll pool following NaCl treatment. The content of endogenous Н2О2 in the leaves of wild-type plants increased significantly following exogenous hydrogen peroxide treatment and salt stress, while it practically did not change in the leaves of the NahG genotype. The SOD activity increased in both genotypes after treatment with exogenous hydrogen peroxide, and remained at an elevated level after salt stress in comparison with the nontreated plants. Furthermore, the catalase activity increased in leaves of the salicylate-deficient genotype but not in the Col-0 genotype. The guaiacol peroxidase activity increased in plants of both genotypes under the action of hydrogen peroxide and salt stress, with the NahG plants demonstrating a higher degree of increase. The Н₂О₂ treatment facilitated the increase of the proline content in leaves of the plants of both genotypes under conditions of salt stress. It was concluded that there were hydrogen peroxide signal transduction pathways in Arabidopsis plants that were salicylic acid independent and that the antioxidant system functioned more effectively in salicylate-deficient Arabidopsis plants.     

Endoplasmic reticulum stress and calcium imbalance are involved in cadmium-induced lipid aberrancy in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

The endoplasmic reticulum is the key organelle which controls protein folding, lipid biogenesis, and calcium (Ca²⁺) homeostasis. Cd exposure in Saccharomyces cerevisiae activated the unfolded protein response and was confirmed by the increased Kar2p expression. Cd exposure in wild-type (WT) cells increased PC levels and the PC biosynthetic genes. Deletion of the two phospholipid methyltransferases CHO2 and OPI3 modulated PC, TAG levels and the lipid droplets with cadmium exposure. Interestingly, we noticed an increase in the calcium levels upon Cd exposure in the mutant cells. This study concluded that Cd interrupted calcium homeostasis-induced lipid dysregulation leading to ER stress.     

New Haplotypes of the Mitochondrial Gene <Emphasis Type="Italic">CytB</Emphasis> in the Nesting Population of the Siberian Black Kite <Emphasis Type="Italic">Milvus migrans lineatus</Emphasis> Gray, 1831 in the Territory of the Republic of Tyva

We analyzed a fragment of mitochondrial CytB locus obtained from young and adult black kites Milvus migrans lineatus from 19 nests in the Republic of Tyva, Russia. Three previously known (CytB-6, CytB-14, CytB-19) and three new haplotypes identified as CytB-6.1, CytB-6.2, and CytB-19.1 were detected. We described a set of substitutions specific to M. migrans lineatus but not to M. migrans migrans, the European subspecies of black kite.     

The involvement of reactive oxygen species in defense of wheat lines with the genes introgressed from <Emphasis Type="Italic">Agropyron</Emphasis> species contributing the resistance against brown rust

The role of reactive oxygen species (ROS) in the defense of nearly isogenic lines of common wheat (Triticum aestivum L., cv. Thatcher) with the genes of resistance to brown rust introgressed from Agropyron species was studied using light microscopy. This disease is induced by the fungus Puccinia triticina Erikss. The presence of superoxide anion in the sites of infection was detected with the dye nitro blue tetrazolium. In addition, we studied fungus development on plants treated with the inhibitor of Ca²⁺-channels, verapamil, disturbing penetration into the cells of Ca²⁺ required for ROS generation. During fungus development in the immune line with the Lr38 resistance gene (from A. intermedium (Host) Beuv.), oxidative burst developed at the sites of contacts of appressoria with stomata and exerted a fungicidic effect. When ROS generation was suppressed, the fungus developed haustoria in the mesophyll cells. In plants with the Lr19 gene (from A. elongatum (Host) Beuv.), only moderate amount of superoxide anion accumulated on the cell walls of stomatal guard cells and in the infection structures when the fungus penetrated into the substomatal cavity and in mesophyll cells. In plants with the Lr24 gene (from A. elongatum), superoxide anion was detected only around haustoria. Suppression of ROS generation in plants harboring the Lr19 and Lr24 genes did not affect fungus entrance into the substomatal cavity but facilitated penetration of haustoria into the mesophyll cells. At the same time, in the lines with the Lr1 gene (from T. aestivum), cytological examination did not detect O ₂ ^? accumulation in plant cells, whereas treatment with verapamil enhanced mycelium development. In all lines, the suppression of oxidative burst slowed the development of hypersensitive response.     

Effect of genetic and coexisting polymorphisms on platelet response to clopidogrel in Chinese Han patients with acute coronary syndrome

Polymorphisms of CYP2C19 are associated with platelet response to clopidogrel. This study was conducted to evaluate the contribution of the previously identified polymorphisms to the response of clopidogrel in a cohort of Chinese Han patients. A total of 222 acute coronary syndrome patients undergoing percutaneous coronary intervention treated with clopidogrel were enrolled from September 2012 to June 2013. Residual platelet aggregations for all patients were measured by the VerifyNow P2Y12 system. Sixteen single-nucleotide polymorphisms among nine genes were genotyped including CYP2C19, ABCB1 and PON1. In this study, CYP2C19*2 and CYP2C19*17 were strongly associated with higher platelet aggregation and lower platelet aggregation to clopidogrel treatment, respectively (P<0.001). Patients with CYP2C19*2 allele had a higher risk of high on-treatment platelet reactivity than non carriers (adjusted OR, 5.434; 95% CI, 1.918–15.399, P=0.01). The coexistence of CYP2B6*9 (rs8192719) and P2Y12 (rs2046934) and the coexistence of CYP2B6*1B (rs7254579) and P2Y12 (rs2046934) were also associated with poor response to clopidogrel. No significant relation of CYP2C19*3 and other polymorphisms to the platelet aggregation was found. In conclusion, CYP2C19*2, CYP2C19*17 coexistence of CYP2B6*9 (rs8192719) and P2Y12 (rs2046934) and coexistence of CYP2B6*1B (rs7254579) and P2Y12 (rs2046934) were identified to be associated with response to clopidogrel treatment in Chinese Han patients.     

Effects of exogenous <Emphasis Type="Italic">myo</Emphasis>-inositol on leaf water status and oxidative stress of <Emphasis Type="Italic">Capsicum annuum</Emphasis> under drought stress

Drought-stressed plants accumulate cyclitols such as myo-inositol, pinitol, quercitol in the cytosol. These solutes (compatible solutes) protect plants from stress effects. Synthetic myo-inositol was used in the investigation of drought stress tolerance in pepper plants. Hydrogen peroxide (H₂O₂), membrane damage, ascorbate peroxidase (AP), catalase (CAT), proline and calcium increased in plants under drought conditions. Water status, calcium level, glutathione reductase activities increased in myo-inositol treated Capsicum annuum L. (pepper) under drought stress. Exogenous myo-inositol significantly decreased H₂O₂, membrane damage and proline levels and AP (except for 5 µM) and CAT activity, compared with untreated plants. Myo-inositol can play a role as effective as proline in signal transduction and in regulating concentrations of reactive oxygen species within tolerable ranges and in maintaining cell turgor by binding water molecules. Myo-inositol may become a useful instrument to eliminate the negative effects of drought environments.     

Intrapopulation heterogeneity of the fluorescence parameters of the marine plankton alga <Emphasis Type="Italic">Thalassiosira weissflogii</Emphasis> at various nitrogen levels

Fluorescence of the marine alga Thalassiosira weissflogii (Grunow) Fryxell et Hasle with open (F _o ) and closed (F _m ) reaction centers of photosystem 2 (PS 2) and its relative variable fluorescence (F _v/F _m ) were measured at various levels of inorganic nitrogen. A significant heterogeneity of the population in terms of these parameters was revealed. Some cells within the population were more sensitive to nitrogen deficiency, and their photosynthetic apparatus was disrupted to a greater extent. The cells within a population also differed in terms of their ability to recover after incubation at low nitrogen levels. Enhancement of nitrogen deficiency resulted in an increase in the variability of the F _o and F _v/F _m values of the cells. Fluorescence variability decreased at a less pronounced deficiency. Fluorescence variability should be taken into consideration in the studies concerning responses of algae to changes in nutrient contents.     

Increase in Salt Tolerance of <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> by <Emphasis Type="Italic">TaDi19</Emphasis>

The gene expression profile chip of salt-resistant wheat mutant RH8706-49 under salt stress was investigated. The overall length of the cDNA sequence of the probe was obtained using electronic cloning and RT-PCR. An unknown gene induced by salt was obtained, cloned, and named TaDi19 (Triticum aestivum drought-induced protein). No related report or research on the protein is available. qPCR analysis showed that gene expression was induced by many stresses, such as salt. Arabidopsis thaliana was genetically transferred using the overexpressing gene, which increased its salt tolerance. After salt stress, the transgenic plant demonstrated better physiological indicators (higher Ca²⁺ and lower Na⁺) than those of the wild-type plant. Results of non-invasive micro-test technology indicate that TaDi19-overexpressing A. thaliana significantly effluxed Na⁺ after salt treatment, whereas the wild-type plant influxed Na⁺. Chelating extracellular Ca²⁺ resulted in insignificant differences in salt tolerance between overexpressing and wild-type A. thaliana. Subcellular localization showed that the gene encoding protein was mainly located in the cell membrane and nucleus. TaDi19 was overexpressed in wild-type A. thaliana, and the transgenic lines were more salt-tolerant than the control A. thaliana. Thus, the wheat gene TaDi19 could increase the salt tolerance of A. thaliana.