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沉默MDR1基因增强急性早幼粒白血病耐药细胞HT9药物敏感性
引用本文:邵淑丽,李旭艳,张伟伟,恽东泽,付博,张珍珠. 沉默MDR1基因增强急性早幼粒白血病耐药细胞HT9药物敏感性[J]. 细胞生物学杂志, 2012, 0(10): 983-987
作者姓名:邵淑丽  李旭艳  张伟伟  恽东泽  付博  张珍珠
作者单位:齐齐哈尔大学生命科学与农林学院,齐齐哈尔161006
基金项目:黑龙江省自然科学基金(No.C2200624)和黑龙江省教育厅科学技术项目(No.11511447,No.12511611)资助项目
摘    要:该研究利用短发卡RNA(small hairpinin RNA,shRNA)表达载体沉默HT9急性早幼粒白血病耐药细胞MDRl基因表达,以提高细胞对三尖杉酯碱、阿霉素的敏感性。通过设计合成编码shRNA的DNA模板序列,定向克隆到pSilencer2.1-u6neo质粒,成功构建1个P-gP蛋白基因特异的shRNA表达载体,稳定电转染HT9细胞,实时荧光定量PCR分析MDRlmRYAg表达,Westem blot检测细胞P—gp蛋白表达,流式细胞术检测P—gP蛋白外排泵功能,MTT法检测细胞对药物敏感性。结果显示,成功构建了shRNA表达载体pSilencer2-1-U6neo—MDRl,转染HT9细胞后,PCR检测重组质粒整合到HT9/sh-2-1-1细胞基因组DNA,获得稳定遗传;HT9/sh-2-1—1细胞MDRlmRNA表达降低了78.84%(P〈0.01),P—gP蛋白表达降低了48.27%(P〈0.05),细胞内Rh0123相对荧光强度由(10.8±0.58)%升高至(73.56±1.37m;转染细胞对三尖杉酯碱、阿霉素敏感性明显增强,IC50分别由(2.06±0.15)gmol/L降至(0.57±0.01)gmol/L、(4.04±017)gmol/L降至(1.56±0.05)μtmol/L。提示shRNA干扰表达载体pSilencer2.1-U6neo—MDRl能够稳定、持久地抑制MDRI基因表达,并能有效增强HT9细胞对三尖杉酯碱、阿霉素的敏感性。

关 键 词:短发卡RNA  MDRl基因  HT9细胞  三尖杉酯碱  阿霉素

Effect of RNAi Silencing MDR1 Gene on the Sensitivity of Multidrug Resistant Actue Promyelocytic Leukemia Cells HT9 to Drugs
Shao Shuli,Li Xuyan,Zhang Weiwei,Yun Dongze,Fu Bo,Zhang Zhenzhu. Effect of RNAi Silencing MDR1 Gene on the Sensitivity of Multidrug Resistant Actue Promyelocytic Leukemia Cells HT9 to Drugs[J]. Chinese Journal of Cell Biology, 2012, 0(10): 983-987
Authors:Shao Shuli  Li Xuyan  Zhang Weiwei  Yun Dongze  Fu Bo  Zhang Zhenzhu
Affiliation:(College of Life Sciences and Agrieulture and Forestry, Qiqihar University, Qiqihar 161006, China)
Abstract:The study investigated the effects of RNAi silencing MDR1 gene, increase the sensitivity of multidrug resistant actue promyelocytic leukemia cells HT9 to harringtonine and doxorubicin. One short hairpin RNA (small hairpin RNA, shRNA) was designed and constructed into pSilencer2, lU6 neo plasmid. MDR1 shRNA expression plasmid pSilencer 2. lU6 neoMDR1 was constructed and introduced into HT9 cells. MDR1 mRNA was assayed by realtime fluorescent quantitative PCR. The Pgp protein was assayed by Western blot. The pump function of Pgp was assayed by FCM. The sensitivity of cells to drugs were assayed by MTT. The results suggested that pSilencer 2. lU6 neoMDR1 expression plasmid was constructed successfully. The results of PCR showed that the shR NA recombinant plasmid had integrated into genome. In HT9/sh2.11 cells, MDR1 mRNA were decreased by 78.84% (P〈0.01), and Pgp protein were decreased by 48.27% (P〈0.05); The Rho123 were increased from (10.80±0.58)% to (73.564±1.37)%; The sensitivity of transfected cells to harringtonine and doxorubicin were increased significantly, ICs0 were decreased from (2.06±0.15) gmol/L to (0.574±0.01) gmol/L, (4.04±0.17) gmol/L to (1.56±0.05) μmol/L, respectively. So shRNA expression plasmid pSilencer 2. lU6 neoMDR1 can permanently inhibit the expression of MDR1 gene stability, and increase the sensitivity of HT9 cells to harringtonine and doxorubicin.
Keywords:shRNA  MDR1 gene  HT9 cells  harringtonine  doxorubicin
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