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51.
The objectives of this study were to characterize the nuclear and cytoskeletal changes of pig oocytes during in vitro maturation (IVM) and the development of the reconstructed embryos after injection with membrane intact or disintegrated donor cells. Cumulus-oocyte complexes (COCs) were collected from abattoir ovaries by follicle (2-8mm) aspiration. In Experiment 1, COCs were cultured in NCSU-23 medium for 0, 11, 22, 33, and 44 h. Oocytes were fixed at different time points for nuclear and cytoskeletal labeling. Forty-three percent and 75% oocytes progressed to MII stage at 33 and 44 h after IVM culture, respectively. Dynamic shift of spindle and cytoplasmic microtubules was evident. In Experiment 2, matured oocytes were injected with either the whole cumulus cell with or without intact cell membranes after enucleation. The reconstructed oocytes were fixed at 0, 2, or 4 h after cell injection for nuclear and cytoskeletal evaluation. When an intact cumulus cell was injected, the injected cell remained intact within 4h after injection. When a cell with disintegrated membrane was injected, 59-63% (n=146) of the injected cell underwent premature chromosome condensation (PCC). In Experiment 3, the reconstructed pig oocytes received membrane-disintegrated cumulus cells or fetal fibroblasts were cultured in PZM medium. The blastocyst rate of the fibroblast-injected embryos was 10%, which was lower than the non-cloned parthenotes (33%, P<0.05) but higher than the cumulus cell-injected embryos (2.7%). These results suggest that pig oocytes are subjected to nuclear and cytoskeletal reorganization during maturation. Pig oocytes injected with membrane-disintegrated fibroblast cells support better blastocyst development of the cloned embryos. 相似文献
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53.
The WRKY6 Transcription Factor Modulates PHOSPHATE1 Expression in Response to Low Pi Stress in Arabidopsis 总被引:2,自引:0,他引:2
Yi-Fang Chen Li-Qin Li Qian Xu You-Han Kong Hui Wang Wei-Hua Wu 《The Plant cell》2009,21(11):3554-3566
Arabidopsis thaliana WRKY family comprises 74 members and some of them are involved in plant responses to biotic and abiotic stresses. This study demonstrated that WRKY6 is involved in Arabidopsis responses to low-Pi stress through regulating PHOSPHATE1 (PHO1) expression. WRKY6 overexpression lines, similar to the pho1 mutant, were more sensitive to low Pi stress and had lower Pi contents in shoots compared with wild-type seedlings and the wrky6-1 mutant. Immunoprecipitation assays demonstrated that WRKY6 can bind to two W-boxes of the PHO1 promoter. RNA gel blot and β-glucuronidase activity assays showed that PHO1 expression was repressed in WRKY6-overexpressing lines and enhanced in the wrky6-1 mutant. Low Pi treatment reduced WRKY6 binding to the PHO1 promoter, which indicates that PHO1 regulation by WRKY6 is Pi dependent and that low Pi treatment may release inhibition of PHO1 expression. Protein gel blot analysis showed that the decrease in WRKY6 protein induced by low Pi treatment was inhibited by a 26S proteosome inhibitor, MG132, suggesting that low Pi–induced release of PHO1 repression may result from 26S proteosome–mediated proteolysis. In addition, WRKY42 also showed binding to W-boxes of the PHO1 promoter and repressed PHO1 expression. Our results demonstrate that WRKY6 and WRKY42 are involved in Arabidopsis responses to low Pi stress by regulation of PHO1 expression. 相似文献
54.
Shu-Chun Fan Choun-Sea Lin Po-Kai Hsu Shan-Hua Lin Yi-Fang Tsay 《The Plant cell》2009,21(9):2750-2761
Several quantitative trait locus analyses have suggested that grain yield and nitrogen use efficiency are well correlated with nitrate storage capacity and efficient remobilization. This study of the Arabidopsis thaliana nitrate transporter NRT1.7 provides new insights into nitrate remobilization. Immunoblots, quantitative RT-PCR, β-glucuronidase reporter analysis, and immunolocalization indicated that NRT1.7 is expressed in the phloem of the leaf minor vein and that its expression levels increase coincidentally with the source strength of the leaf. In nrt1.7 mutants, more nitrate was present in the older leaves, less 15NO3− spotted on old leaves was remobilized into N-demanding tissues, and less nitrate was detected in the phloem exudates of old leaves. These data indicate that NRT1.7 is responsible for phloem loading of nitrate in the source leaf to allow nitrate transport out of older leaves and into younger leaves. Interestingly, nrt1.7 mutants showed growth retardation when external nitrogen was depleted. We conclude that (1) nitrate itself, in addition to organic forms of nitrogen, is remobilized, (2) nitrate remobilization is important to sustain vigorous growth during nitrogen deficiency, and (3) source-to-sink remobilization of nitrate is mediated by phloem. 相似文献
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Lin MH Yang YL Chen YP Hua KF Lu CP Sheu F Lin GH Tsay SS Liang SM Wu SH 《The Journal of biological chemistry》2011,286(20):17736-17745
Bacterial polysaccharides are known to induce the immune response in macrophages. Here we isolated a novel extracellular polysaccharide from the biofilm of Thermus aquaticus YT-1 and evaluated its structure and immunomodulatory effects. The size of this polysaccharide, TA-1, was deduced by size-exclusion chromatography as 500 kDa. GC-MS, high performance anion-exchange chromatography with pulsed amperometric detection, electrospray ionization-MS/MS, and NMR revealed the novel structure of TA-1. The polysaccharide is composed of tetrasaccharide-repeating units of galactofuranose, galactopyranose, and N-acetylgalactosamine (1:1:2) and lacked acidic sugars. TA-1 stimulated macrophage cells to produce the cytokines TNF-α and IL-6. Screening of Toll-like receptors and antibody-blocking experiments indicated that the natural receptor of TA-1 in its immunoactivity is TLR2. Recognition of TA-1 by TLR2 was confirmed by TA-1 induction of IL-6 production in peritoneal macrophages from wild-type mice but not from TLR2(-/-) mice. TA-1, as a TLR2 agonist, could possibly be used as an adjuvant and could enhance cytokine release, which increases the immune response. Furthermore, TA-1 induced cytokine release is dependent on MyD88/TIRAP. 相似文献
57.
Pericytes augment glioblastoma cell resistance to temozolomide through CCL5-CCR5 paracrine signaling
Xiao-Ning Zhang Kai-Di Yang Cong Chen Zhi-Cheng He Qiang-Hu Wang Hua Feng Sheng-Qing Lv Yan Wang Min Mao Qing Liu Yao-Yao Tan Wen-Ying Wang Tian-Ran Li Lin-Rong Che Zhong-Yi Qin Ling-Xiang Wu Min Luo Chun-Hua Luo Yu-Qi Liu Wen Yin Chao Wang Hai-Tao Guo Qing-Rui Li Bin Wang Wei Chen Shuang Wang Yu Shi Xiu-Wu Bian Yi-Fang Ping 《Cell research》2021,31(10):1072
Glioblastoma (GBM) is a prevalent and highly lethal form of glioma, with rapid tumor progression and frequent recurrence. Excessive outgrowth of pericytes in GBM governs the ecology of the perivascular niche, but their function in mediating chemoresistance has not been fully explored. Herein, we uncovered that pericytes potentiate DNA damage repair (DDR) in GBM cells residing in the perivascular niche, which induces temozolomide (TMZ) chemoresistance. We found that increased pericyte proportion correlates with accelerated tumor recurrence and worse prognosis. Genetic depletion of pericytes in GBM xenografts enhances TMZ-induced cytotoxicity and prolongs survival of tumor-bearing mice. Mechanistically, C-C motif chemokine ligand 5 (CCL5) secreted by pericytes activates C-C motif chemokine receptor 5 (CCR5) on GBM cells to enable DNA-dependent protein kinase catalytic subunit (DNA-PKcs)-mediated DDR upon TMZ treatment. Disrupting CCL5-CCR5 paracrine signaling through the brain-penetrable CCR5 antagonist maraviroc (MVC) potently inhibits pericyte-promoted DDR and effectively improves the chemotherapeutic efficacy of TMZ. GBM patient-derived xenografts with high CCL5 expression benefit from combined treatment with TMZ and MVC. Our study reveals the role of pericytes as an extrinsic stimulator potentiating DDR signaling in GBM cells and suggests that targeting CCL5-CCR5 signaling could be an effective therapeutic strategy to improve chemotherapeutic efficacy against GBM.Subject terms: Cancer microenvironment, CNS cancer, Cancer therapy 相似文献
58.
Jia-Hau Yen Deng-Jye Yang Meng-Chi Chen Yu-Fan Hsieh Yu-Shu Sun Gregory J Tsay 《Journal of biomedical science》2010,17(1):83
Background
To assess the effects of Glycine tomentella Hayata (GTH), a traditional herbal medicine for treatment of rheumatic diseases on the expression of the proinflammatory cytokines and on the clearance of apoptotic cells by macrophages. 相似文献59.
60.
Abstract: Nerve growth factor (NGF) and dibutyryl cyclic AMP (dbcAMP) have synergistic effects on the neurite outgrowth of rat pheochromocytoma PC12 cells. The sites of interaction between NGF and dbcAMP have been studied extensively; however, the role of Ca2+ in differentiation induced by the two agents remains unclear. To understand whether intracellular Ca2+ is involved in the differentiation induced by the two agents, PC12 cells were treated with NGF, dbcAMP, or NGF plus dbcAMP for 2 days, and then effects on neurite outgrowth, ATP-induced Ca2+ influx, and Ca2+ mobilization from intracellular Ca2+ pools were examined. NGF or dbcAMP alone enhanced neurite outgrowth and Ca2+ accumulation by nonmitochondrial Ca2+ pools or the thapsigargin (TG)-sensitive Ca2+ pool. The dbcAMP acted synergistically with NGF to increase neurite outgrowth and to enlarge the TG-sensitive Ca2+ pool. The synergistic effect occurred within the first hour of treatment with dbcAMP plus NGF. On the other hand, dbcAMP abolished NGF's ability to enhance ATP-induced influx of extracellular Ca2+ . Therefore, NGF and dbcAMP induced different effects on Ca2+ signaling pathways through two different but interacting pathways. In PC12 cells pretreated with TG to deplete the TG-sensitive Ca2+ pool, the dbcAMP- or dbcAMP plus NGF-mediated neurite outgrowth was significantly inhibited, whereas NGF-mediated neurite outgrowth was not affected by TG pretreatment. Our results suggest that the intracellular nonmitochondrial Ca2+ pools were changed in the differentiation process and were necessary for the synergistic effect of NGF and dbcAMP. 相似文献