逆转录病毒载体介导MGMT和MDR1基因增强人脐血CD34＋细胞对联合化疗抗性的研究

To explore whether human umbilical cord blood hematopoietic progenitor cells transduced with human O6-methylguanine-DNA-methyltransferase (MGMT) and multidrug resistance gene (MDR1) increase resistance to 1,3-Bis(2-Chloroethy1)-1-Nitrosourea (BCNU) and P-glycoprotein effluxed drugs, the present authors obtained a full length cDNA fragment encoding MGMT from liver tissue of a patient with cholelithiasis by RT-PCR. A bicistronic retroviral vector G1Na-MGMT-IRES-MDR1 cDNA was constructed and transfected the packaging cell lines GP + E86 and PA317 by electric performation method, using the medium containing VCR and BCNU for cloning selection and ping-ponging supernatant infection between ecotropic producer clone and amphotropic producer clone, cord blood CD34+ cells were enriched with a high-gradient magnetic cell sorting system (MACS), and then transfected repeatedly with supernatant of retrovirus containing human MGMT and MDR1cDNA under stimulation of hemapoietic growth factors. PCR, RT-PCR, Southern blot, Northern blot, Western blot, FACS and MTT assay were used to evaluate the transfer and expression of the double genes in cord blood CD34+ cells. The cDNA encoding MGMT was verified by DNA sequencing and the bicistronic retroviral vector was confirmed by restriction endonuclease analysis. The purity of cord blood CD34+ cells was approximately 92% and recover rate was 75%, the highest titer of recombinant amphotropic retrovirus in the supernatant was up to 5.8 x 10(5) cfu/ml. The efficiency of gene transduction was 18% and 20% tested by colony formation and PCR, respectively. No helper virus was found by both nested PCR and rescue assay. The results showed that dual drug resistance genes have been integrated into the genomic DNA of cord blood CD34+ cells and expressed efficiently. The MTT analysis showed a 4.5 to 7.8-fold increase of resistance of transducted cells to BCNU and P-glycoprotein effluxed drug as compared with the nontransduced cells. This study provided a foundation for ameliorating combination chemotherapy toxicity in tumor clinical trial.     

逆病毒载体介导双耐药基因在脐血CD34+细胞中的表达和抗性研究

为探讨转染醛脱氢酶基因(ALDHl)和多药耐药基因(MDRl)的人脐血CD34+细胞能否同时增强对活性环磷酰胺(4-HC)和MDRl基因靶药的抗性,构建了同时含ALDHl和MDRl双耐药基因的逆转录病毒表达质粒GlNa-ALDHl-IRES-MDRl,经LipofectAMINE介导转染GP+E86和PA317包装细胞,采用含长春新碱(VCR)和4-HC的培养基克隆选择后收集重组病毒上清于单向型GP+E86与双嗜型PA317包装细胞行乒乓交互感染,获得PA317重组病毒生产细胞(最高滴度达5.6×105CFU／ml),将含ALDHl和MDRl双耐药基因重组病毒的上清在细胞生长因子刺激下重复感染人脐血CD34+细胞,用PCR、RT-PCR、Southernblot、Northernblot、FACS和MTT等方法检测外源ALDHl与MDRl基因在CD34+细胞中的转移和表达。结果显示逆转录病毒载体介导的双耐药基因已经整合人转染靶细胞基因组并获得有效表达,同时传递不同的耐药表型。经双耐药基因修饰的脐血CD34+细胞对4-HC和VCR药物同时产生抗性,其IC50值分别比未转染细胞高4倍和7.2倍,本研究为开展肿瘤基因治疗的临床研究奠定了实验基础。     

逆病毒载体介导双耐药基因在脐血CD34^＋细胞中的表达和抗性研究

To explore whether human umbilical cord blood CD34+ cells transduced with human aldehyde dehydrogenase class-1 (ALDH1) and multidrug resistance gene (MDR1) increase resistance to 4-Hyaroxycyclophosphophamide (4-HC) and P-Glycoprotein Effluxed Drugs, a bicistronic Retroviral vector G1Na-ALDH1-IRES-MDR1 was constructed. The vector was transduced into the packaging cell lines GP + E86 and PA317 by LipofectAMINE. Using the medium containing VCR and 4-HC for cloning selection and pingponging supernatant infection between ecotropic producer clone and amphotropic producer clone, we obtained high titer amphotropic PA317 producer clone with the highest titer up to 5.6 x 10(5) CFU/ml. Cord blood CD34+ cells were transfectced repeatedly with supernatant of retrovirus containing human ALDH1 and MDR1cDNA under stimulation of hemopoietie growth factors. PCR, RT-PCR, Southern blot, Northern blot, FACS and MTT method analyses show that dual drug resistance genes have been integrated into the genomic DNA of cord blood CD34+ cells and expressed efficiently. The transgenes recipient cells confered 4- to 7.2-folds stronger resistance to cyclophospsphamede and P-Glycoprotein Effluxes drug in comparison with the nontransduced cells. This study provided a foundation for the application of combination chemotherapy in tumor clinical trial.     

肿瘤MDR1基因表观遗传调控及其对宫颈癌的启示

多药耐药是肿瘤细胞化疗失败的重要原因,多药耐药基因1过度表达P-gP是产生耐药的主要机制,表观遗传通过对DNA的甲基化和组蛋白脱乙酰化的修饰来调节MDR1基因的转录.应用化学物质可以逆转MDR1基因的过度表达,提高化疗敏感性,这将为癌症治疗提供新策略,也为宫颈癌的治疗提供新思路.