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Nishizaki C Nishikawa M Yata T Yamada T Takahashi Y Oku M Yurimoto H Sakai Y Nakanishi K Takakura Y 《Free radical biology & medicine》2011,51(3):773-779
Surgical trauma, which is inevitably associated with the surgical removal of cancer, has been reported to accelerate tumor metastasis. The close association of reactive oxygen species with the trauma and tumor metastasis supports the possibility of using antioxidants for the inhibition of metastasis. To inhibit surgical trauma-enhanced peritoneal dissemination, human catalase (hCAT) derivatives, i.e., hCAT-nona-arginine peptide (hCAT-R9) and hCAT-albumin-binding peptide (hCAT-ABP), were designed to increase the retention time of the antioxidant enzyme in the abdominal cavity after intraperitoneal administration. Both 125I-labeled derivatives showed significantly prolonged retention in the cavity compared to 125I-hCAT. Cauterization of the cecum of mice with a hot iron, an experimental model of surgical trauma, induced abdominal adhesions. In addition, cauterization followed by colon26 tumor cell inoculation increased lipid peroxidation in the cecum and mRNA expression of molecules associated with tissue repair/adhesion and inflammation in the peritoneum. hCAT derivatives significantly suppressed the increased mRNA expression. The cauterization also increased the number of tumor cells in the abdominal organs, and the number was significantly reduced by hCAT-R9 or hCAT-ABP. These results indicate that hCAT-R9 and hCAT-ABP, both of which have a long retention time in the peritoneal cavity, can be effective at inhibiting surgery-induced peritoneal metastasis. 相似文献
53.
We describe a protocol for creating localized DNA double-strand breaks (DSBs) with minimal requirements that can be applied in cell biology and molecular biology. This protocol is based on the combination of 5-bromo-2'-deoxyuridine (BrdU) labeling and ultraviolet C (UVC) irradiation through porous membranes. Cells are labeled with 10 μM BrdU for 48-72 h, washed with Ca(2+)- and Mg(2+)-free PBS(-), covered by polycarbonate membranes with micropores and exposed to UVC light. With this protocol, localized DSBs are created within subnuclear areas, irrespective of the cell cycle phase. Recruitment of proteins involved in DNA repair, DNA damage response, chromatin remodeling and histone modifications can be visualized without any specialized equipment. The quality is the same as that obtained by laser microirradiation or by any other focal irradiation. DSBs become visible within 30 min of UVC irradiation. 相似文献
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Euphorbia tirucalli L., known as the petroleum plant, produces a large amount of triterpenes, such as beta-amyrin. Degenerate RT-PCR based on the sequences conserved among known beta-amyrin synthases led to cloning of a putative triterpene synthase cDNA, EtAS, from leaves of E. tirucalli. The deduced amino acid sequence of the EtAS cDNA showed the highest identity of 82% to the Panax ginseng beta-amyrin synthase. Heterologous expression of the EtAS ORF in the methylotrophic yeast, Pichia pastoris, resulted in production of beta-amyrin, revealing that the EtAS cDNA codes for a beta-amyrin synthase. This is the first report of a gene involved in the triterpene synthetic pathway from Euphorbiaceae plants. 相似文献
57.
A sorting nexin PpAtg24 regulates vacuolar membrane dynamics during pexophagy via binding to phosphatidylinositol-3-phosphate
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Ano Y Hattori T Oku M Mukaiyama H Baba M Ohsumi Y Kato N Sakai Y 《Molecular biology of the cell》2005,16(2):446-457
Diverse cellular processes such as autophagic protein degradation require phosphoinositide signaling in eukaryotic cells. In the methylotrophic yeast Pichia pastoris, peroxisomes can be selectively degraded via two types of pexophagic pathways, macropexophagy and micropexophagy. Both involve membrane fusion events at the vacuolar surface that are characterized by internalization of the boundary domain of the fusion complex, indicating that fusion occurs at the vertex. Here, we show that PpAtg24, a molecule with a phosphatidylinositol 3-phosphate-binding module (PX domain) that is indispensable for pexophagy, functions in membrane fusion at the vacuolar surface. CFP-tagged PpAtg24 localized to the vertex and boundary region of the pexophagosome-vacuole fusion complex during macropexophagy. Depletion of PpAtg24 resulted in the blockage of macropexophagy after pexophagosome formation and before the fusion stage. These and other results suggest that PpAtg24 is involved in the spatiotemporal regulation of membrane fusion at the vacuolar surface during pexophagy via binding to phosphatidylinositol 3-phosphate, rather than the previously suggested function in formation of the pexophagosome. 相似文献
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Capillary morphogenesis is a crucial angiogenic response of endothelial cells. Although fibroblast growth factor-2 (FGF-2) potently induces capillary morphogenesis, the contribution of vascular endothelial growth factor-A (VEGF-A) in this response has not been clarified well. Here we examined the role of VEGF signaling in FGF-2-induced capillary morphogenesis by murine brain capillary endothelial cells (IBE cells) and human umbilical vein endothelial cells. FGF-2-treated IBE cells rapidly extended on Matrigel in association with actin reorganization. Chimeric protein, of which the extracellular domain of VEGF receptor-1 (VEGFR-1) fused to immunoglobulin Fc, inhibited FGF-2-induced cell extension, resulting in decreased capillary morphogenesis. Blocking antibody against VEGFR-1 inhibited FGF-2-induced capillary formation. Also, anti-VEGF-A antibody inhibited FGF-2-induced capillary morphogenesis, which was restored by the addition of placental growth factor-1. Similar results were obtained by the experiments with human umbilical vein endothelial cells. Expression of kinase-inactive c-Akt in IBE cells showed impaired capillary morphogenesis promoted by FGF-2. Conversely, stable cell lines expressing activated c-Akt demonstrated ligand-independent capillaries, which were resistant to the treatment with anti-VEGFR-1 blocking antibody. Upstream of c-Akt, calmodulin-dependent signals seemed to be involved. Taken together, signals via VEGFR-1 were required for FGF-2-induced capillary morphogenesis by endothelial cells, and c-Akt activity seemed to be involved in this process. 相似文献
60.
Lin H Sugimoto Y Ohsaki Y Ninomiya H Oka A Taniguchi M Ida H Eto Y Ogawa S Matsuzaki Y Sawa M Inoue T Higaki K Nanba E Ohno K Suzuki Y 《Biochimica et biophysica acta》2004,1689(3):219-228
Gaucher disease (GD) is the most common form of sphingolipidosis and is caused by a defect of beta-glucosidase (beta-Glu). A carbohydrate mimic N-octyl-beta-valienamine (NOV) is an inhibitor of beta-Glu. When applied to cultured GD fibroblasts with F213I beta-Glu mutation, NOV increased the protein level of the mutant enzyme and up-regulated cellular enzyme activity. The maximum effect of NOV was observed in F213I homozygous cells in which NOV treatment at 30 microM for 4 days caused a approximately 6-fold increase in the enzyme activity, up to approximately 80% of the activity in control cells. NOV was not effective in cells with other beta-Glu mutations, N370S, L444P, 84CG and RecNciI. Immunofluorescence and cell fractionation showed localization of the F213I mutant enzyme in the lysosomes of NOV-treated cells. Consistent with this, NOV restored clearance of 14C-labeled glucosylceramide in F213I homozygous cells. F213I mutant beta-Glu rapidly lost its activity at neutral pH in vitro and this pH-dependent loss of activity was attenuated by NOV. These results suggest that NOV works as a chemical chaperone to accelerate transport and maturation of F213I mutant beta-Glu and may suggest a therapeutic value of this compound for GD. 相似文献