Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have induced intracellular dopamine oxidation to aminochrome in RCSN-3 cells derived from rat substantia nigra by inhibiting VMAT-2 with reserpine to increase free cytosolic dopamine concentration, to study aminochrome-dependent neurotoxicity in the absence of exogenous oxidizing agents such as metals, which may potentiate an aminochrome cytotoxic effect. The expression of VMAT-2 in RCSN-3 cells was determined by reverse transcriptase-polymerase chain reaction and immunocytochemistry. We observed double membrane bodies containing melanin when RCSN-3 cells were incubated with 100 microM dopamine by using transmission electron microscopy. No significant difference in the cell death was observed when the cells were treated 100 microM dopamine and 25 microM reserpine in the absence or presence of 100 microM dicoumarol, an inhibitor of DT-diaphorase. The lack of effect was due to the inhibitory action of 25 microM reserpine on DT-diaphorase (Ki = 24 microM). However, a significant increase in the cell death was observed when DT-diaphorase was inhibited when the cells were incubated with 1 microM reserpine and 100 microM dopamine for 12 h since at this concentration reserpine inhibits VMAT-2 but not DT-diaphorase. Under this condition, we observed (i) the formation of blebbing; (ii) chromatin condensation accompanied by the formation of massive patches in contact with the nuclear membrane; (iii) the smoothness of the cell's surface, that is, lack of surface microprojections; and (iv) mitochondrial damage characterized by disruption of cristae architecture, which remains closely packed; disorganization of the mitochondrial matrix due to separation of the outer membrane from the internal membrane and considerable enlargement of the intermembrane space; and disruption of the external mitochondrial membrane determined by transmission electron microscopy. These results support the proposed neuroprotective role of DT-diaphorase against aminochrome neurotoxicity, and it suggests that RCSN-3 cells incubated with reserpine and dopamine are an excellent and more physiological cellular experimental model to study the role of dopamine oxidation in neurotoxic effects of dopamine.
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PMID:Inhibition of VMAT-2 and DT-diaphorase induce cell death in a substantia nigra-derived cell line--an experimental cell model for dopamine toxicity studies. 1742 37

Interferon (IFN)-gamma plays a critical role in murine uterine spiral artery remodeling for successful pregnancy. The effect of IFN-gamma on human uterine microvasculature, however, remains poorly understood. The aim of this study was to identify the genes regulated by IFN-gamma in human uterine microvascular endothelial cells. The effect of IFN-gamma on the gene expression profile in human uterine microvascular endothelial cells was evaluated by cDNA microarray analysis and quantitative real-time reverse transcriptase-polymerase chain reaction for the selected genes of interest. In vivo expression of the protein encoded by some of these genes in human uterine microvascular endothelial cells was evaluated by Western blotting and immunohistochemistry. Treatment with 10 ng/ml IFN-gamma for 4 h induced a significant > or =2-fold change in 29 genes in pooled human uterine microvascular endothelial cells; a total of 20 genes were up-regulated, whereas nine genes were down-regulated. The genes significantly up-regulated included chemokines (CXCL9, CXCL10, CCL8, IL15RA, and CCL5), enzymes (GBP5, TAP1, CYP27B1, SOD2, MX1, CASP1, and PTGES), and transcription factors (TFAP2C, IRF1, NFE2L3). The genes significantly down-regulated following IFN-gamma treatment included cytokines/cytokine receptors (CSF2, IL1R2, and SPP1), and insulin-like growth factor binding proteins (WISP2 and IGFBP3). The results of the cDNA microarray analysis were confirmed by quantitative real-time reverse transcriptase-polymerase chain reaction for the selected 17 genes of interest. The immunoreactivity for the proteins encoded by IL15RA, IFI30, and MX1 was detected in human uterine microvascular endothelial cells in vivo, whereas the immunoreactivity for CCNA1 and NQO1 was not detectable. These results suggest that IFN-gamma regulates the gene expression involved in natural killer cell recruitment, embryo and trophoblast migration, endometrial decidualization, angiogenesis, angiostasis, and anti-viral infection in human uterine microvascular endothelial cells.
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PMID:Genes regulated by interferon-gamma in human uterine microvascular endothelial cells. 1791 62

The number of studies involved in the development of in vitro skin sensitization tests has increased since the adoption of the EU 7th amendment to the cosmetics directive proposing to ban animal testing for cosmetic ingredients by 2013. Several studies have recently demonstrated that sensitizers induce a relevant up-regulation of activation markers such as CD86, CD54, IL-8 or IL-1beta in human myeloid cell lines (e.g., U937, MUTZ-3, THP-1) or in human peripheral blood monocyte-derived dendritic cells (PBMDCs). The present study aimed at the identification of new dendritic cell activation markers in order to further improve the in vitro evaluation of the sensitizing potential of chemicals. We have compared the gene expression profiles of PBMDCs and the human cell line MUTZ-3 after a 24-h exposure to the moderate sensitizer cinnamaldehyde. A list of 80 genes modulated in both cell types was obtained and a set of candidate marker genes was selected for further analysis. Cells were exposed to selected sensitizers and non-sensitizers for 24 h and gene expression was analyzed by quantitative real-time reverse transcriptase-polymerase chain reaction. Results indicated that PIR, TRIM16 and two Nrf2-regulated genes, CES1 and NQO1, are modulated by most sensitizers. Up-regulation of these genes could also be observed in our recently published DC-activation test with U937 cells. Due to their role in DC activation, these new genes may help to further refine the in vitro approaches for the screening of the sensitizing properties of a chemical.
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PMID:Comparative DNA microarray analysis of human monocyte derived dendritic cells and MUTZ-3 cells exposed to the moderate skin sensitizer cinnamaldehyde. 1952 5

Hematopoietic processes, especially megakaryocytopoiesis and thrombopoiesis, are highly sensitive to extracellular oxidative stresses such as ionizing radiation and chemotherapeutic agents. This study examined the terminal maturation of megakaryocytes and platelet production in hematopoietic stem/progenitor cells (HSPCs) exposed to ionizing radiation. Highly purified CD34(+) cells derived from human placental/umbilical cord blood were exposed to X rays (2 Gy, 150 kVp, 20 mA; 0.5-mm aluminum and 0.3-mm copper filters) at a dose rate of approximately 1 Gy/min and then cultured in a serum-free medium supplemented with thrombopoietin and interleukin-3. The number of cells generated from X-irradiated CD34(+) cells decreased with the time in culture. However, the fraction of CD34(+)Tie-2(+) and CD41(+)Tie-2(+) cells among the total cells generated from X-irradiated cells increased significantly in comparison to nonirradiated controls on day 7. In addition, the CD42a(+) particles, which appeared to be platelets, generated from the X-irradiated HSPCs appeared to be normal. Quantitative real-time reverse transcriptase-polymerase chain reaction analysis of the expression of various genes in cells harvested from the cultures showed that the early hematopoiesis-related genes FLI1, HOXB4 and Tie-2, the cytokine receptor genes KIT and IL3RA, and the oxidative stress-related genes HO1 and NQO1 were upregulated on day 7. These results suggest that normal terminal maturation of megakaryocytes and platelet production occur in residual HSPCs after exposure to ionizing radiation despite the adverse effect of radiation on proliferation and differentiation of HSPCs. Ionizing radiation may have the potential to promote both megakaryocytopoiesis and thrombopoiesis.
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PMID:Megakaryocytopoiesis and thrombopoiesis in hematopoietic stem cells exposed to ionizing radiation. 2202 86

NAD(P)H:quinone oxidoreductase 1 (NQO1), a phase II flavoenzyme that catalyzes reduction reactions to protect cells against electrophiles and oxidants, is involved in tumorigenesis. Altered methylation of the NQO1 gene has been observed and is speculated to result in aberrant NQO1 expression in rat cells undergoing chemical carcinogenesis, although this has not been proven experimentally. In this study, we first investigated the potential epigenetic mechanisms underlying the phenomenon of NQO1 differential expression in individual subclones of rat arsenic-transformed lung epithelial cells (TLECs). NQO1 expression of TLEC subclones with or without 5-aza-2'-deoxycytidine (5-Aza-CdR) treatment was assessed by reverse transcriptase-polymerase chain reaction (RT-PCR), western blot analysis, and real-time PCR. Methylation status of the NQO1 promoter in TLEC subclones was analyzed by bisulfite sequencing. Transcriptional activity of NQO1 promoter in vitro methylated was determined by luciferase assay using a CpG-free luciferase reporter driven by the NQO1 promoter region (-435 to +229). We found that non-CpG island (non-CpGI) within the NQO1 promoter was hyper- or hypo-methylated in TLEC subclones and corresponded to low and high gene expressions, respectively. Following the treatment with 5-Aza-CdR, transcription of the NQO1 gene in the hypermethylated subclones was restored, accompanied by demethylation of the NQO1 promoter. In vitro promoter methylation almost completely silenced reporter activity in TLECs. These results indicate that DNA methylation of the non-CpGI promoter contributes to epigenetic silencing of NQO1 in rat TLECs.
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PMID:DNA methylation of a non-CpG island promoter represses NQO1 expression in rat arsenic-transformed lung epithelial cells. 2988 18


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