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831.
832.
Immortalization of swine umbilical vein endothelial cells (SUVECs) with the simian virus 40 large-T antigen 总被引:1,自引:0,他引:1
Chrusciel M Bodek G Kirtiklis L Lewczuk B Hyder CL Blitek A Kaczmarek MM Ziecik AJ Andronowska A 《Molecular reproduction and development》2011,78(8):597-610
Implementation of the swine umbilical vein endothelial cells (SUVECs) model in vitro can be instrumental in determining the biology of endothelial cells. We have generated an immortalized endothelial cell line, G-1410, using Simian virus 40 T-antigen (SV40 T-ag) primarily to overcome the short life span before the onset of senescence and high variability among enzymatically isolated cells of primary cultures. Fast proliferating cells were selected from cultures and, after a fifth passage, examined for the presence of the SV40 T-ag by PCR and immunocytochemistry. Phase contrast and transmission electron microscopy revealed that G-1410 cells did not differ morphologically from SUVECs. The G-1410 cells exhibited positive staining for vascular endothelial (VE)-cadherin and von Willebrand factor (vWF), and formed capillary-like tube structures on Matrigel. Despite the strong oncogenic signal provided by SV40 T-ag, these transformed G-1410 cells have remained karyotypically normal and non-tumorigenic. G-1410 cells also responded to stimulation with VEGF, FGF-2, and newborn calf serum. Moreover, G-1410 cells showed elevated expression of VEGF120, VEGF164 (VEGF-A), and FGF-2 at both mRNA and protein levels. In conclusion, based on the cytological and functional evaluation of the newly obtained immortalized cell line, it can be concluded that G-1410 cells provide a useful tool for studying the effects of VEGF and FGF systems, and other signal transduction pathways related to angiogenesis. 相似文献
833.
Increased cellular proliferation is an integral part of the cancer phenotype. Hence, the sustained and continued demand on supply of DNA building blocks during the DNA replication presents a potential target for therapeutic intervention. For this propose, the α and Auger electron emitting nucleotides analogs are attractive for targeted endoradiotherapy, given that DNA of malignant cells is selectively addressed. This review summarizes development and preclinical and clinical studies of endoradiotherapeutic acting nucleoside analogs with a special focus on thymidine analogs. 相似文献
834.
Zielinska A Davies OT Meldrum RA Hodges NJ 《Journal of biochemical and molecular toxicology》2011,25(1):1-7
Oxidative DNA damage caused by intracellular reactive oxygen species (ROS) is widely considered to be important in the pathology of a range of human diseases including cancer as well as in the aging process. A frequently occurring mutagenic base lesion produced by ROS is 8-oxo deoxyguanine (8-oxo dG) and the major enzyme for repair of 8-oxo dG is 8-oxoguanine-DNA glycosylase 1 (OGG1). There is now substantial evidence from bulk biochemical studies that a common human polymorphic variant of OGG1 (Ser326Cys) is repair deficient, and this has been linked to individual risk of pathologies related to oxidative stress. In the current study, we have used the technique of multiphoton microscopy to induce highly localized oxidative DNA damage in discrete regions of the nucleus of live cells. Cells transfected with GFP-tagged OGG1 proteins demonstrated rapid (<2 min) accumulation of OGG1 at sites of laser-induced damage as indicated by accumulation of GFP-fluorescence. This was followed by repair as evidenced by loss of the localized fluorescence over time. Quantification of the rate of repair confirmed that the Cys326 variant of OGG1 is repair deficient and that the initial repair rate of damage by Cys326 OGG1 was 3 to 4 fold slower than that observed for Ser326 OGG1. These values are in good agreement with kinetic data comparing the Ser326 and Cys326 proteins obtained by biochemical studies. 相似文献
835.
Löffler C Kuntze K Vazquez JR Rugor A Kung JW Böttcher A Boll M 《Environmental microbiology》2011,13(3):696-709
Benzoyl-coenzyme A (CoA) reductases (BCRs) are key enzymes in the anaerobic degradation of aromatic compounds and catalyse the reductive dearomatization of benzoyl-CoA to cyclohexa-1,5-dienoyl-1-carboxyl-CoA. Class I BCRs are ATP-dependent FeS enzymes, whereas class II BCRs are supposed to be ATP-independent and contain W, FeS clusters, and most probably selenocysteine. The active site components of a putative eight subunit class II BCR, BamBCDEFGHI, were recently characterized in Geobacter metallireducens. In this organism bamB was identified as structural gene for the W-containing active site subunit; bamF was predicted to code for a selenocysteine containing electron transfer subunit. In this work the occurrence and expression of BCRs in a number of anaerobic, aromatic compound degrading model microorganisms was investigated with a focus on the BamB and BamF components. Benzoate-induced class II BCR in vitro activities were determined in the soluble protein fraction in all obligately anaerobic bacteria tested. Where applicable, the results were in agreement with Western blot analysis using BamB targeting antibodies. By establishing a specific bamB targeting PCR assay, bamB homologues were identified in all tested obligately anaerobic bacteria with the capacity to degrade aromatic compounds; a number of bamB sequences from Gram-negative/positive sulfate-reducing bacteria were newly sequenced. In several organisms at least two bamB paralogues per genome were identified; however, in nearly all cases only one of them was transcribed during growth on an aromatic substrate. These benzoate-induced bamB genes are proposed to code for the active site subunit of class II BCRs; the major part of them group into a phylogenetic subcluster within the bamB homologues. Results from in silico analysis suggested that all class II BCRs contain selenocysteine in the BamF, and in many cases also in the BamE subunit. The results obtained indicate that the distribution of the two classes of BCRs in anaerobic bacteria appears to be strictly ruled by the available free energy from the oxidation of the aromatic carbon source rather than by phylogenetic relationships. 相似文献
836.
Anna J Korzekwa Gabriel Bodek Joanna Bukowska Agnieszka Blitek Dariusz J Skarzynski 《Reproductive biology and endocrinology : RB&E》2011,9(1):27
Background
The interactions between luteal, vascular endothelial, immune cells and its products: steroids, peptide hormones, prostaglandins (PGs), growth factors and cytokines play a pivotal role in the regulation of corpus luteum (CL) function. Luteal endothelial cells undergo many dynamic morphological changes and their action is regulated by cytokines. The aims are: (1) to establish in vitro model for bovine luteal endothelial cells examination; (2) to study the effect of cytokines: tumor necrosis factor alpha (TNFalpha) and interferon gamma (IFNgamma) on cell viability, leukotrienes (LTs) and PG synthases, and endothelin-1 (EDN-1) mRNA, protein expression and their secretion in bovine immortalized luteal endothelial (EnCL-1) cells. 相似文献837.
Prendergast L van Vuuren C Kaczmarczyk A Doering V Hellwig D Quinn N Hoischen C Diekmann S Sullivan KF 《PLoS biology》2011,9(6):e1001082
Centromeres are differentiated chromatin domains, present once per chromosome, that direct segregation of the genome in mitosis and meiosis by specifying assembly of the kinetochore. They are distinct genetic loci in that their identity in most organisms is determined not by the DNA sequences they are associated with, but through specific chromatin composition and context. The core nucleosomal protein CENP-A/cenH3 plays a primary role in centromere determination in all species and directs assembly of a large complex of associated proteins in vertebrates. While CENP-A itself is stably transmitted from one generation to the next, the nature of the template for centromere replication and its relationship to kinetochore function are as yet poorly understood. Here, we investigate the assembly and inheritance of a histone fold complex of the centromere, the CENP-T/W complex, which is integrated with centromeric chromatin in association with canonical histone H3 nucleosomes. We have investigated the cell cycle regulation, timing of assembly, generational persistence, and requirement for function of CENPs -T and -W in the cell cycle in human cells. The CENP-T/W complex assembles through a dynamic exchange mechanism in late S-phase and G2, is required for mitosis in each cell cycle and does not persist across cell generations, properties reciprocal to those measured for CENP-A. We propose that the CENP-A and H3-CENP-T/W nucleosome components of the centromere are specialized for centromeric and kinetochore activities, respectively. Segregation of the assembly mechanisms for the two allows the cell to switch between chromatin configurations that reciprocally support the replication of the centromere and its conversion to a mitotic state on postreplicative chromatin. 相似文献
838.
von der Malsburg K Müller JM Bohnert M Oeljeklaus S Kwiatkowska P Becker T Loniewska-Lwowska A Wiese S Rao S Milenkovic D Hutu DP Zerbes RM Schulze-Specking A Meyer HE Martinou JC Rospert S Rehling P Meisinger C Veenhuis M Warscheid B van der Klei IJ Pfanner N Chacinska A van der Laan M 《Developmental cell》2011,21(4):694-707
The mitochondrial inner membrane consists of two domains, inner boundary membrane and cristae membrane that are connected by crista junctions. Mitofilin/Fcj1 was reported to be involved in formation of crista junctions, however, different views exist on its function and possible partner proteins. We report that mitofilin plays a dual role. Mitofilin is part of a large inner membrane complex, and we identify five partner proteins as constituents of the mitochondrial inner membrane organizing system (MINOS) that is required for keeping cristae membranes connected to the inner boundary membrane. Additionally, mitofilin is coupled to the outer membrane and promotes protein import via the mitochondrial intermembrane space assembly pathway. Our findings indicate that mitofilin is a central component?of MINOS and functions as a multifunctional regulator of mitochondrial architecture and protein biogenesis. 相似文献
839.
840.
The majority of mycotoxins produced by Aspergillus fungi are immunosuppressive agents, and their cytotoxicity may impair defense mechanisms in humans. The objective of the study was evaluation of the cytotoxicity of fungi isolated from an environment where inpatients with impaired immunity were present. The materials comprised 57 fungal strains: Aspergillus fumigatus, Aspergillus niger: Aspergillus ochraceus, Aspergillus flavus, Aspergillus versicolor and Aspergillus ustus isolated from hospital rooms in Cracow. The cytotoxicity of all the strains was evaluated using the MTT test (3-(4,5-dimethylthiazol-2-yl) 2,5 diphenyltetrazolium bromide). To emphasize the differences in cytotoxicity among the particular strains, variance analysis (ANOVA) and Tukey's difference test were used. Out of 57 Aspergillus strains tested, 48 (84%) turned out to be cytotoxic. The cytyotoxicity was high (+++) in 21 strains, mainly in A. fumigatus. The least cytotoxic were A. niger fungi, this being statistically significant (p<0,05). To protect a patient from the adverse effects of mycotoxins, not only his or her immunity status should be evaluated but also the presence of fungi in hospital environment and their cytotoxicity should be monitored (possible exposure). 相似文献