Melanoma-associated antigen D4(MAGED4)is overexpressed in glioma and has been associated with WHO grade and survival.Here we investigated the exact function of MAGED4 during glioma progression and its regulatory mecha...Melanoma-associated antigen D4(MAGED4)is overexpressed in glioma and has been associated with WHO grade and survival.Here we investigated the exact function of MAGED4 during glioma progression and its regulatory mechanism.Cell migration and invasion were evaluated following up-and down-regulation of MAGED4 expression in glioma cell lines U87MG,U251,A172 and SHG44.Furthermore,we combined bioinformatics tools with biological validation assays to determine the miRNA targeting MAGED4.展开更多
以钠基蒙脱石为原料,用十六烷基三甲基氯化铵(CTAC)进行有机改性制备季铵盐改性蒙脱石(CMMT),之后吸附五氟尿嘧啶(5-FU),再用海藻酸钠(SA)进行包衣,最后测定该载药凝胶球的释药性能.考察p H值和释放时间等因素对载药凝胶球体外释放5-FU...以钠基蒙脱石为原料,用十六烷基三甲基氯化铵(CTAC)进行有机改性制备季铵盐改性蒙脱石(CMMT),之后吸附五氟尿嘧啶(5-FU),再用海藻酸钠(SA)进行包衣,最后测定该载药凝胶球的释药性能.考察p H值和释放时间等因素对载药凝胶球体外释放5-FU的影响规律,通过三种体外释放模型对其释药数据进行拟合,探讨了凝胶球中5-FU的释放机理,说明了季铵盐改性蒙脱石作为5-FU治疗结肠癌控释载体材料的可行性.结果表明:CMMT/SA对5-FU的载药量远大于MMT/SA,其载药量可达到0.6827 g/g;而载药凝胶球中5-FU的体外释放能力主要受释放介质p H值的影响,当p H 7.4时,5-FU/CMMT/SA中5-FU的累积释放率最大,可达到77.10%,在p H 1.5时的结果最小;一级动力学模型能比Korsmeyer-Peppas模型和Higuchi模型更好地拟合5-FU在不同p H下的体外释放情况.展开更多
文摘Melanoma-associated antigen D4(MAGED4)is overexpressed in glioma and has been associated with WHO grade and survival.Here we investigated the exact function of MAGED4 during glioma progression and its regulatory mechanism.Cell migration and invasion were evaluated following up-and down-regulation of MAGED4 expression in glioma cell lines U87MG,U251,A172 and SHG44.Furthermore,we combined bioinformatics tools with biological validation assays to determine the miRNA targeting MAGED4.
文摘以钠基蒙脱石为原料,用十六烷基三甲基氯化铵(CTAC)进行有机改性制备季铵盐改性蒙脱石(CMMT),之后吸附五氟尿嘧啶(5-FU),再用海藻酸钠(SA)进行包衣,最后测定该载药凝胶球的释药性能.考察p H值和释放时间等因素对载药凝胶球体外释放5-FU的影响规律,通过三种体外释放模型对其释药数据进行拟合,探讨了凝胶球中5-FU的释放机理,说明了季铵盐改性蒙脱石作为5-FU治疗结肠癌控释载体材料的可行性.结果表明:CMMT/SA对5-FU的载药量远大于MMT/SA,其载药量可达到0.6827 g/g;而载药凝胶球中5-FU的体外释放能力主要受释放介质p H值的影响,当p H 7.4时,5-FU/CMMT/SA中5-FU的累积释放率最大,可达到77.10%,在p H 1.5时的结果最小;一级动力学模型能比Korsmeyer-Peppas模型和Higuchi模型更好地拟合5-FU在不同p H下的体外释放情况.