Variation in Gene Expression of Inflammatory Cytokines in Leukocyte-Derived Cells of High-Fat-Diet-Induced Insulin-Resistant Rats

A high-fat diet is thought to enhance inflammation in various tissues by increasing insulin resistance. In this study, we determined the mRNA levels of inflammatory cytokines in leukocyte-derived cells in the blood of rats with high-fat-diet-induced insulin resistance. Feeding rats a high-fat diet for 77 d induced moderate insulin resistance, which was determined by increased plasma glucose and insulin concentrations, following an oral glucose tolerance test. The interleukin (IL)-1β mRNA level was higher in the insulin-resistant rats than in control rats at the fasting stage, whereas the tumor necrosis factor (TNF)-α mRNA level was greatly elevated at 180 min after glucose administration in the insulin-resistant rats. The results suggest that feeding rats a high-fat diet enhances the expression of fasting IL-1β and postprandial TNF-α genes in leukocyte-derived cells.     

FHIT基因在宫颈癌细胞中的表达及其甲基化调控

目的：分析FHIT基因在宫颈癌细胞中表达情况以及甲基化的调控情况。方法：对RJC-1、SiHa、CS1213以及C4-1细胞进行培养,提取这些细胞的DNA并经过亚硫酸氢盐修饰,进行PCR反应和产物的检测。分析FHIT基因在宫颈癌细胞中表达情况以及甲基化的调控情况。结果：RJC-1、CS1213细胞仅有甲基化引物扩增出了目的条带,为完全甲基化状态。其他细胞则是甲基特异性引物与非甲基特异性引物共同扩增出73bp的目的条带,其状态为甲基化杂合性。通过5-aza-CdR处理细胞后,通过实时定量PCR检测FHIT mRNA的表达,显示处理后各种细胞中的FHIT mRNA的表达升高。结论：FHIT基因的甲基化是其表达下调的重要机制之一,是临床研究宫颈癌细胞的重要方向之一。     

A Comparative Analysis of Gene Expression Patterns and Cell Phenotypes between Cervical and Peripheral Blood Mononuclear Cells

Studies of the immunological environment in the female genital tract (FGT) are critical for the development of vaccines or microbicides to halt the spread of sexually transmitted infections. Challenges arise due to the difficulties of sampling from this site, and the majority of studies have been conducted utilising peripheral blood mononuclear cells. Identifying functional differences between immune cells of the FGT and peripheral blood would aid in our understanding of mucosal immunology. We compared the gene expression profile of mononuclear cells at these two sites. Messenger RNA expression analysis was performed using gene expression arrays on matched cervical mononuclear cells and peripheral blood mononuclear cells. Further cellular phenotyping was done by 10 colour flow cytometry. Of the 22,185 genes expressed by these samples, 5345 genes were significantly differentially expressed between the cell populations. Most differences can be explained by significantly lower levels of T and B cells and higher levels of macrophages and dendritic cells in the FGT compared with peripheral blood. Several immunologically relevant pathways such as apoptosis and innate immune signalling, and a variety of cytokines and cytokine receptors were differentially expressed. This study highlights the importance of the unique immunological environment of the FGT and identifies important differences between systemic and mucosal immune compartments.     

Induction of Thyroid Gene Expression and Radioiodine Uptake in Melanoma Cells: Novel Therapeutic Implications

Both the MAP kinase and PI3K/Akt pathways play an important role in the pathogenesis of melanoma. We conducted the present study to test the hypothesis that targeting the two pathways to potently induce cell inhibition accompanied with thyroid iodide-handling gene expression for adjunct radioiodine ablation could be a novel effective therapeutic strategy for melanoma. We used specific shRNA approaches and inhibitors to individually or dually suppress the MAP kinase and PI3K/Akt pathways and examined the effects on a variety of molecular and cellular responses of melanoma cells that harbored activating genetic alterations in the two pathways. Suppression of the MAP kinase and PI3K/Akt pathways showed potent anti-melanoma cell effects, including the inhibition of cell proliferation, transformation and invasion, induction of G₀/G₁ cell cycle arrest and, when the two pathways were dually suppressed, cell apoptosis. Remarkably, suppression of the two pathways, particularly simultaneous suppression of them, also induced expression of genes that are normally expressed in the thyroid gland, such as the genes for sodium/iodide symporter and thyroid-stimulating hormone receptor. Melanoma cells were consequently conferred the ability to take up radioiodide. We conclude that dually targeting the MAP kinase and PI3K/Akt pathways for potent cell inhibition coupled with induction of thyroid gene expression for adjunct radioiodine ablation therapy may prove to be a novel and effective therapeutic strategy for melanoma.     

Gene Expression Analysis of Peripheral Cells for Subclassification of Pediatric Inflammatory Bowel Disease in Remission

Objective

In current clinical practice, optimal treatment of inflammatory bowel disease (IBD) aims at the induction and maintenance of clinical remission. Clinical remission is apparent when laboratory markers of inflammation are normal and clinical symptoms are absent. However, sub-clinical inflammation can still be present. A detailed analysis of the immune status during this inactive state of disease may provide a useful tool to categorize patients with clinical remission into subsets with variable states of immune activation.

Design

By using Affymetrix GeneChips, we analysed RNA gene expression profiles of peripheral blood leukocytes from pediatric IBD patients in clinical remission and controls. We performed (un)supervised clustering analysis of IBD-associated genes and applied Ingenuity® pathway software to identify specific molecular profiles between patients.

Results

Pediatric IBD patients with disease in clinical remission display heterogeneously distributed gene expression profiles that are significantly distinct from controls. We identified three clusters of IBD patients, each displaying specific expression profiles of IBD-associated genes.

Conclusion

The expression of immune- and IBD-associated genes in peripheral blood leukocytes from pediatric IBD patients in clinical remission was different from healthy controls, indicating that sub-clinical immune mechanisms are still active during remission. As such, RNA profiling of peripheral blood may allow for non-invasive patient subclassification and new perspectives in treatment regimes of IBD patients in the future.     

Protein Folding,Misfolding, Aggregation and Their Implications in Human Diseases: Discovering Therapeutic Ways to Amyloid-Associated Diseases

Protein folding is a very complex process, and recognition of the molecular mechanisms responsible for protein folding is one of the demanding queries in biochemistry. Protein molecules have a fixed propensity either to misfold or unable to sustain their precisely folded states, under assured conditions. Taking into account that the protein misfolding and aggregation are central in the pathogenesis of protein conformational disorders, a therapy focussed to the root of the disease should target to restrain and/or undo the conformational alterations that lead to the development of the pathological protein conformer. In future, an understanding of the causes of protein aggregation and genetic and environmental vulnerability features of an exact individual may offer an enhanced prospect for a successful therapeutic intrusion. Dealing with these and related problems not only provides great prospects for involvement with numerous, presently fatal diseases but will also ultimately disclose the basically essential association between proteostasis and prolonged existence.     

Dual Action of Myricetin on Porphyromonas gingivalis and the Inflammatory Response of Host Cells: A Promising Therapeutic Molecule for Periodontal Diseases

Periodontitis that affects the underlying structures of the periodontium, including the alveolar bone, is a multifactorial disease, whose etiology involves interactions between specific bacterial species of the subgingival biofilm and the host immune components. In the present study, we investigated the effects of myricetin, a flavonol largely distributed in fruits and vegetables, on growth and virulence properties of Porphyromonas gingivalis as well as on the P. gingivalis-induced inflammatory response in host cells. Minimal inhibitory concentration values of myricetin against P. gingivalis were in the range of 62.5 to 125 μg/ml. The iron-chelating activity of myricetin may contribute to the antibacterial activity of this flavonol. Myricetin was found to attenuate the virulence of P. gingivalis by reducing the expression of genes coding for important virulence factors, including proteinases (rgpA, rgpB, and kgp) and adhesins (fimA, hagA, and hagB). Myricetin dose-dependently prevented NF-κB activation in a monocyte model. Moreover, it inhibited the secretion of IL-6, IL-8 and MMP-3 by P. gingivalis-stimulated gingival fibroblasts. In conclusion, our study brought clear evidence that the flavonol myricetin exhibits a dual action on the periodontopathogenic bacterium P. gingivalis and the inflammatory response of host cells. Therefore, myricetin holds promise as a therapeutic agent for the treatment/prevention of periodontitis.     

Tools for Fungal Proteomics: Multifunctional Neurospora Vectors for Gene Replacement, Protein Expression and Protein Purification

The completion of genome-sequencing projects for a number of fungi set the stage for detailed investigations of proteins. We report the generation of versatile expression vectors for detection and isolation of proteins and protein complexes in the filamentous fungus Neurospora crassa. The vectors, which can be adapted for other fungi, contain C- or N-terminal FLAG, HA, Myc, GFP, or HAT–FLAG epitope tags with a flexible poly-glycine linker and include sequences for targeting to the his-3 locus in Neurospora. To introduce mutations at native loci, we also made a series of knock-in vectors containing epitope tags followed by the selectable marker hph (resulting in hygromycin resistance) flanked by two loxP sites. We adapted the Cre/loxP system for Neurospora, allowing the selectable marker hph to be excised by introduction of Cre recombinase into a strain containing a knock-in cassette. Additionally, a protein purification method was developed on the basis of the HAT–FLAG tandem affinity tag system, which was used to purify HETEROCHROMATIN PROTEIN 1 (HP1) and associated proteins from Neurospora. As expected on the basis of yeast two-hybrid and co-immunoprecipitation (Co-IP) experiments, the Neurospora DNA methyltransferase DIM-2 was found in a complex with HP1. Features of the new vectors allowed for verification of an interaction between HP1 and DIM-2 in vivo by Co-IP assays on proteins expressed either from their native loci or from the his-3 locus.     

Expression of Heat Shock Protein 70 Gene and Its Correlation with Inflammatory Markers in Essential Hypertension

Objectives

Hypertension is characterized by systemic high blood pressure and is the most common and important risk factor for the development of cardiovascular diseases. Studies have shown that the circulating levels of certain inflammatory markers such as tumor necrosis factor-alpha (TNF-alpha), interlukin-6 (IL-6), c-reactive protein (CRP), and tumor suppressor protein-53 (p53) are upregulated and are independently associated with essential hypertension. However, mechanism of increase in the levels of HSP70 protein is not clear. No such studies are reported in the blood circulation of patients with essential hypertension. In the present study, we investigated the expression of circulating HSP70 at mRNA and protein levels and its relationship with other inflammatory markers in patients with essential hypertension.

Materials and Methods

We recruited 132 patients with essential hypertension and 132 normal controls from similar socio-economic-geographical background. The expression of HSP70 at mRNA levels was determined by Real Time PCR and at protein levels by indirect Elisa and Western Blot techniques.

Results

We found a significantly higher expression of HSP70 gene expression (approximately 6.45 fold, P < 0.0001) in hypertensive patients as compared to healthy controls. A significant difference (P < 0.0001) in the protein expression of HSP70 was also observed in plasma of patients as compared to that of controls.

Conclusion

Higher expression of HSP70 is positively correlated with inflammatory markers in patients with essential hypertension and this correlation could play an important role in essential hypertension.     

Expression of Tyrosine Hydroxylase Gene in Cultured Hypothalamic Cells: Roles of Protein Kinase A and C

Abstract: In hypothalamic cells cultured in serum-free medium, the quantity of tyrosine hydroxylase mRNA increases after treatment with an activator of the protein kinase A pathway (8-bromoadenosine cyclic AMP, 3-isobutyl-1-methylxanthine, or forskolin) or an activator of protein kinase C (12- O -tetradecanoylphorbol 13-acetate or sn -1,2-diacylglycerol). The tyrosine hydroxylase mRNA level decreases in the cells after inhibition of protein kinase C with calphostin C or after depletion of protein kinase C by extended phorbol ester treatment. These data suggest that both protein kinase pathways regulate tyrosine hydroxylase gene expression in hypothalamic cells. As simultaneous activation of both pathways has less than an additive effect on the tyrosine hydroxylase mRNA level, they appear to be interrelated. Compared with the rapid and dramatic increase of the tyrosine hydroxylase mRNA level in pheochromocytoma cells, activation of the protein kinase A or protein kinase C pathway in the cultured hypothalamic cells induces slow changes of a small magnitude in the amount of tyrosine hydroxylase mRNA. The slow regulation of tyrosine hydroxylase gene expression in hypothalamic dopaminergic neurons corresponds to the relatively high stability of tyrosine hydroxylase mRNA (half-life = 14 ± 1 h) in these cells.     

Milk Protein Synthesis, Gene Expression, and Hormonal Responsiveness in Primary Cultures of Mammary Cells from Lactating Sheep

A ruminant mammary cell culture that accurately reproduces mammary function in vitro would be a valuable tool in studies of ruminant lactation, With this in mind, we have examined milk protein synthesis and secretion, milk protein mRNA abundance, and hormonal responsiveness in primary cultures of mammary acini from lecturing sheep. α- and β-casein protein synthesis, β-lactoglobulin synthesis, and α-casein, β-casein, and β-lactoglobulin secretion are maintained at high levels for 8 h in culture, but then decline to approximately 25% of maximal rates between 8 and 24 h in culture, whereas synthesis of other proteins remains unaltered. The relative abundance of α-S₁-casein, β-lactoglobulin, and α-lactalbumin mRNAs similarly decline between 8 and 24 h in culture. Extracellular labeled α-casein is increased fourfold in the presence of fetal calf serum (FCS). In total, FCS alters the abundance of 47 of 68 secreted proteins detected by two-dimensional electrophoresis. However, FCS and lactogenic/galactopoietic hormones had no effect on the rate of decline of mammary function and did not promote any regaining of function when present for up to 9 days in culture. These results suggest that providing its limitations are recognized, this primary cell culture system may be useful in studying some aspects of ruminant mammary function in vitro.     

宫颈癌SiHa细胞中丛生蛋白、存活素和Fas的表达的研究

目的:Clusterin、Survivin和Fas与肿瘤细胞凋亡密切相关.本研究拟通过检测宫颈癌SiHa细胞中上述这些蛋白的表达水平,以及羟基喜树碱对这些蛋白表达的影响.方法:SiHa细胞分别在普通培养基和舍有羟基喜树碱的培养基中培养,检测细胞死亡,annexin V和PI染色检测细胞凋亡,Western-blotting方法检测Cluste血、Survivin和Fas表迭水平.结果:我们的结果表明,在羟基喜树碱培养的细胞中,在浓度为0.5和3umol/L的培养基培养24小时后凋亡和死亡的肿瘤细胞数量增多,明显高于无化疗药的培养基中的细胞.Western结果显示经过羟基喜树碱处理的细胞Clusterin水平和fas蛋白水平明显高于未经过处理的细胞.在经过0.5和3umol/L的化疗药处理的SiHa细胞Survivin表达下降.结论:与survivin相比,clusterin在对化疗药物抵抗的过程中发挥的作用更大.     

Effects of Selenium Supplementation on Gene Expression Levels of Inflammatory Cytokines and Vascular Endothelial Growth Factor in Patients with Gestational Diabetes

Selenium is known to exert multiple beneficial effects including anti-inflammatory actions. The aim of the study was to evaluate the effects of selenium supplementation on gene expression levels of inflammatory cytokines and vascular endothelial growth factor (VEGF) in women with gestational diabetes (GDM). This randomized double-blind, placebo-controlled trial was carried out among 40 subjects diagnosed with GDM aged 18–40 years old. Subjects were randomly allocated into two groups to receive either 200 μg/day selenium supplements (n = 20) or placebo (n = 20) for 6 weeks. Gene expression of inflammatory cytokines and VEGF were assessed in lymphocytes of GDM women with RT-PCR method. Results of RT-PCR indicated that after the 6-week intervention, compared with the placebo, selenium supplementation downregulated gene expression of tumor necrosis factor alpha (TNF-α) (P = 0.02) and transforming growth factor beta (TGF-β) (P = 0.01), and upregulated gene expression of VEGF (P = 0.03) in lymphocytes of patients with GDM. There was no statistically significant change following supplementation with selenium on gene expression of interleukin (IL)-1β and IL-8 in lymphocytes of subjects with GDM. Selenium supplementation for 6 weeks in women with GDM significantly decreased gene expression of TNF-α and TGF-β, and significantly increased gene expression of VEGF, but did not affect gene expression of IL-1β and IL-8. Clinical trial registration number http://www.irct.ir: IRCT201612045623N95.     

蜘蛛拖牵丝蛋白基因的克隆与表达

蜘蛛丝具有极高的强度和韧度,工业和医学应用价值很高,但由于蜘蛛的不可驯养性使其应用受到限制.因此,本文尝试利用基因工程的方法获得蛛丝蛋白的表达.我们利用巢式PCR技术从大腹圆蛛Araneus ventricosus基因组中克隆了长度为837 bp的拖牵丝蛋白基因(ASP),并分别将其构建至原核表达载体pGEX-6p-1和真核表达载体pGFP-N2上,分别命名为pASG和pASN.pASG在大肠杆菌中16℃下24 h诱导表达后,经蛋白质印迹证明成功地表达了GST-ASP融合蛋白;pASN转染昆虫sf9细胞48 h后观察到了绿色荧光蛋白GFP的表达,表明ASP基因在大肠杆菌和真核细胞中分别得到了正确表达.本研究为利用基因工程的方法开发蛛丝蛋白的生产途径提供了有益的尝试.     

乙型肝炎病毒e抗原基因与绿色荧光蛋白基因的融合及其表达

质粒pS65T含有T7启动子驱动的绿色荧光蛋白突变型gfpS65T基因,经修饰后,在其中插入乙型肝炎病毒e抗原（HBeAg）基因,使两基因同框成为融合基因。在大肠杆菌BL21中由于T7启动子的控制,高效表达了具有双功能（抗原性和发光性）的融合蛋白（GFP－HBeAg）。融合蛋白MW为52kDa,N端有6个组氨酸残基,因而用Ni金属螯合层析柱对融合蛋白进行了分离纯化,利用诊断HBV的ELISA试剂盒检测了融合蛋白的抗原性,在荧光显微镜下观察到了融合蛋白的绿色荧光。并探讨了用其组装成新型免疫诊断试剂的可能性。     

Roles for the Mitogen-activated Protein Kinase (MAPK) Phosphatase,DUSP1, in Feedback Control of Inflammatory Gene Expression and Repression by Dexamethasone

Glucocorticoids act on the glucocorticoid receptor (NR3C1) to repress inflammatory gene expression. This is central to their anti-inflammatory effectiveness and rational improvements in therapeutic index depend on understanding the mechanism. Human pulmonary epithelial A549 cells were used to study the role of the mitogen-activated protein kinase (MAPK) phosphatase, dual-specificity phosphatase 1 (DUSP1), in the dexamethasone repression of 11 inflammatory genes induced, in a MAPK-dependent manner, by interleukin-1β (IL1B). Adenoviral over-expression of DUSP1 inactivated MAPK pathways and reduced expression of all 11 inflammatory genes. IL1B rapidly induced DUSP1 expression and RNA silencing revealed a transient role in feedback inhibition of MAPKs and inflammatory gene expression. With dexamethasone, which induced DUSP1 expression, plus IL1B (co-treatment), DUSP1 expression was further enhanced. At 1 h, this was responsible for the dexamethasone inhibition of IL1B-induced MAPK activation and CXCL1 and CXCL2 mRNA expression, with a similar trend for CSF2. Whereas, CCL20 mRNA was not repressed by dexamethasone at 1 h, repression of CCL2, CXCL3, IL6, and IL8 was unaffected, and PTGS2 repression was partially affected by DUSP1 knockdown. At later times, dexamethasone repression of MAPKs was unaffected by DUSP1 silencing. Likewise, 6 h post-IL1B, dexamethasone repression of all 11 mRNAs was essentially unaffected by DUSP1 knockdown. Qualitatively similar data were obtained for CSF2, CXCL1, IL6, and IL8 release. Thus, despite general roles in feedback inhibition, DUSP1 plays a transient, often partial, role in the dexamethasone-dependent repression of certain inflammatory genes. Therefore this also illustrates key roles for DUSP1-independent effectors in mediating glucocorticoid-dependent repression.