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HIF1α promotes prostate cancer progression by increasing ATG5 expression
Kaiyuan Yu,Luxia Xiang,Shaoxun Li,Shuaibin Wang,Chaohao Chen,Haiqi Mu 한국통합생물학회 2019 Animal cells and systems Vol.23 No.5
Prostate cancer (PCa) is the most frequently diagnosed cancer among men. However, the major modifiable risk factors for PCa are poorly known and its specific mechanism of progression remains unclear. Here we reported that, in prostate cancer cells, the autophagy level was elevated under hypoxic condition, as well as the mRNA and protein level of ATG5, which is an important gene related to autophagy. Furthermore, we found HIF1α could directly bind to the promoter of ATG5 and promote the expression of ATG5 on transcriptional level by luciferase assay and ChIP assay. Intriguingly, overexpression of HIF1α by HIF1α-M could increase tumor size and the effect could be abolished by knockdown ATG5 by si-ATG5 in BALB/cA-nu/nu nude mice. Importantly, HIF1α could also promote the metastasis of PC-3 cells by upregulating the ATG5 and autophagy level and knockdown ATG5 and inhibition autophagy both could abolish the effect of overexpression of HIF1α on the migration of PC-3 cells. Taken together, our results, for the first time, proved that HIF1α could promote the proliferation and migration of PC-3 cells by direct upregulating ATG5 and autophagy level in PC-3 prostate cancer cells. Our findings not only provide new perspective for the relationship between hypoxia and autophagy, but also add new potential therapeutic regimens for the treatment of prostate cancers.
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FRACTAL ANALYSIS FOR FRACTURE PROCESS OF ROLYMER MATERIALS
Liu, Liu, Xiaobo,Gu, Gu, Yi,Jiang, Jiang, Luxia,Cai, Cai, Xingxian 한국재료학회 1995 Fabrication and Characterization of Advanced Mater Vol.1 No.3
This work focuses on fractal analysis for fracture process of polymer materials in theoric model and experimental ditermination. A series of theoric fractal model based on fracutred surface for fracutre process of polymer materials are founded, and the fractal dimension of fractured surface wa obtained under various break mechanism including crack in shear bands, crack development in stonely wave, crack cross, break in brittle, fractured pocess for the rigid filtered polymers and self-reinforced liquid crystal thermotes. These results retlected that the bigger the fractal dimensiion of the fractured surface, the higher the toughenss of polymer materials. According to Griffith strength, the mechanical properties of polymers increased lindarly with the rise of fractal dimension value.
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Lei He,Yong Dai,Zhe Wang,Lutao Yang,Luxia Zhang,Pengpeng Hu,Yutian Lei,Hong Mo,Haomiao Zhu,Jun Zhang 한국화학공학회 2022 Korean Journal of Chemical Engineering Vol.39 No.8
Oilfield wastewater has a significantly negative influence on the recovery efficiency due to its hypersalinity. Therefore, magnetic graphene oxide (GO) modified with ethylene diamine tetraacetic acid (EDTA) and grafted bypolyethylene glycol (PEG) nano-adsorbent was prepared to remove the Ca2+ and Cr6+ in Jidong Oilfield wastewaterspecifically. It was noteworthy that PEG-g-EDTA/Fe3O4/GO nano-adsorbent had excellent adsorption performance,with removal ratios up to 71.6% for Ca2+ and 42.7% for Cr6+ at 30 min. After the fifth recycling run, the nano-adsorbentstill remained with high removal ratios (69.3% for Ca2+ and 30.5% for Cr6+) and high reuse rates (89.4% for Ca2+and 95.2% for Cr6+), indicating that the nano-adsorbent had outstanding adsorption-desorption efficacy and high reusability. The adsorption test results demonstrated that the total salinity of the treated oilfield wastewater decreased byabout 5,000 ppm, and the displacement efficiency further increased by 12.5% by chemical flooding compared with theuntreated wastewater. Therefore, PEG-g-EDTA/Fe3O4/GO nano-adsorbent is an adsorbent with excellent potentialwhich can effectively remove Ca2+ and Cr6+ in oilfield wastewater to enhance oil recovery (EOR).
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