OBJECTIVE: To construct eukaryotic expression vector of rat myogenin gene for further study on its functions in skeletal muscle denervated atrophy and repair. METHODS: The cloning vectors (containing full length of myogenin cDNA and two restriction sites: Hind III and Xho I) were first cut by two restriction endonuclease: Hind III and Xho I, and the same as the eukaryotic expression vector; then, the myogenin cDNA and the digested vector were ligated by T4 DNA ligase, and recombinant eukaryotic expression vector was formed. Its length was certificated by agarose gel electrophoresis analysis, digestion with Hind III and Xho I, PCR; and the rightness of the myogenin cDNA sequence was confirmed by sequencing. RESULTS: The results of agarose gel electrophoresis analysis, digestion, and PCR confirmed the right length of inserted DNA, which was the same as the myogenin cDNA, and the sequencing result of pcDNA3-myogenin was identical with the reported. CONCLUSION: pcDNA3-myogenin a eukaryotic expression vector, is successfully constructed.
Abstract: Objective To generate a eukaryotic expression plasmid-pcDNA3.1/human tissue inhibitor of metalloproteinase-1(hTIMP-1)enhanced green fluorescent protein (EGFP), carrying hTIMP-1 and labeled with EGFP, and to examine the expression of hTIMP-1 in vascular smooth muscle cells (SMCs) transferred with hTIMP. Methods The recombinant plasmids of pcDNA3.1/hTIMP-1-EGFP were obtained bypolymerase chain reaction (PCR) amplification, splicing, and insertion of complementary deoxyribonucleic acid (cDNA) fragments of hTIMP-1 and EGFP. The target gene was transferred to the primarily cultured SMCs (pcDNA3.1/hTIMP-1-EGFP transferred group) by using cationic liposome mediated gene transfection technique. EGFP expression was detected by fluorescence microscopy, and the transfection rate was determined by flow cytometry. Reverse transcriptase polymerase chain reaction (RTPCR), Western blotting, and other techniques were used to detect the expression of hTIMP-1 gene. The biological activity of matrix metalloproteinase-2(MMP-2) and matrix metalloproteinase-9(MMP-9) were studied by zymographic analysis of gelatinases. Blank plasmidpcDNA3.1 transferred SMCs (blank plasmid pcDNA3.1 transferred group) and untransferred SMCs (untransferred group) were used as control. Results In cDNA3.1/hTIMP-1-EGFP transferred group,the growth ability of SMCs was profoundly inhibited, bright green fluorescence was observed by fluorescence microscopy 24 hours after transfection in SMCs,the rate of transfection analyzed with flow cytometry was 15%,RT-PCR results showed that the genome of hTIMP-1 transferred SMCs contained a 646 bp specific fragment of hTIMP-1 gene, Western blotting results proved hTIMP-1 protein expression in SMCs transferred by hTIMP-1, zymographic analysis of elatinases showed decreased activity of MMP-2 and MMP-9, compared to those in blank plasmidpcDNA3.1 transferred group and untransferred group, significant differences were observed (Plt;0.05). Conclusion The generation of a eukaryotic expression plasmid carrying TIMP-1 gene and its expression in SMCs provide a sound basis for hTIMP-1 gene therapy.
Objective To study the effect of knockdown of signal transducer and activator of transcription 3 (STAT3) expression by short hairpin RNA (shRNA) on proliferation, apoptosis and invasion of human gastric cancer cell line MKN-45 in vitro . Methods Specific shRNA plasmids to STAT3 were constructed, and then transfected into MKN-45 cells by lipofectamine methods. Cells were divided into three groups: control group, psiRNA-H1 transfected group as negative group and psiRNA-H1/STAT3 transfected group. Semi-quantitative RT-PCR and Western blotting were used to detect the expression of STAT3 mRNA and protein, respectively. Proliferation and apoptosis of the transfected cells were observed by methyl thiazolyl tetrazolium (MTT) method and flow cytometry (FCM), respectively. The invasion of the transfected MKN-45 cells was measured by Boyden chamber. Results Compared with the negative control cells, semi-quantitative RT-PCR and Western blotting showed that the expressions of STAT3 mRNA and protein were down-regulated in the psiRNA-H1/STAT3 transfected group ( P < 0.05) . The subcloned recombinant plasmid expressing shRNA effectively inhibited MKN-45 cell growth and proliferation while empty plasmid had no such specific effect. Cell apoptosis rate increased significantly in psiRNA-H1/STAT3 transfected group ( P < 0.01), and the invasion of MKN-45 cells was efficiently inhabited in psiRNA-H1/STAT3 transfected group as compared with control group and psiRNA-H1 transfected group( P < 0.01).Conclusion Recombinant plasmid psiRNA-H1/STAT3 shRNA significantly inhibits the proliferation and invasion of MKN-45 cells and promotes their apoptosis.
ObjectiveTo establish a cell inflammation model induced by tumor necrosis factor-α (TNF-α) in human bronchus epithelial cells, and investigate the effects of glutathione S-transferase mu 5 (GSTM5) on the inflammation and oxidative stress. Methods16HBE cells were treated with TNF-α (10 ng/mL, 24 h) in the absence or presence of the constructed GSTM5 eukaryotic expression vector (1 μg/mL). The concentration of malondialdehyde (MDA) and total antioxidation capacity (T-AOC) were detected by colorimetric method. The survival rate of cells was assessed by the methyl thiazolyl tetrazolium (MTT) assay. The transcription level of NADPH oxidase-1 (NOX1), NOX2, NOX3, NOX4, NOX5, dual oxidase-1 (DUOX1) and DUOX2 were evaluated by RT-PCR. Western blot was performed to investigate the protein levels of NOX1 and NOX2. ResultsTNF-α simulation significantly increased the level of MDA in cells, and decreased the level of T-AOC and survival rate of 16HBE. When transfected with the GSTM5 eukaryotic expression vector, the concentration of MDA significantly decreased (P < 0.05), and the activation of T-AOC increased dramatically (P < 0.05). Consequently, the survival rate of 16HBE in the GSTM5 group improved (P < 0.05). The 16HBE cells transfected with the constructed GSTM5 eukaryotic expression vector had a lower transcription and protein levels of NOX1 and NOX2 (all P < 0.01). There were no significant changes in the mRNA expressions of NOX3, NOX4, NOX5, DUOX1 or DUOX2. ConclusionGSTM5 may down-regulate the transcription level of NOX1 and NOX2 to reduce the inflammation and oxidative stress induced by TNF-α.
Objective To clone human bone morphogenetic protein 2 ( BMP-2) gene and construct the gene’s eukaryotic expression vector. Methods The total RNA was extracted from human osteosarcoma cells, the human BMP-2 cDNA was amplified by RT-PCR and inserted into pGEM-T vector. The positive clones were screened out, and the n the recombinant plasmid was confirmed by restriction enzyme digestion, PCR and the analysis of nucleotide sequence. The BMP-2 cDNA in the pGEM-T cloning vec tor was inserted into the pcDNA3.1(+) eukaryotic expression vector. Results The agarose electrophoresis showed that the fragments of BMP-2, pGEMT and pcDNA3.1(+) were 1.2 kbp, 4.0 kbp and 5.0 kbp, respectively. The result of nucleotide sequence confirmed that the cDNA sequence, which was inserted into pGEM-T and pcDNA3.1(+) plasmid was human BMP-2. Conclusion The pcDNA3.1(+)-hBMP-2 eukaryotic vector can be successfully constructed.
Objective To construct the lentiviral vector to co-express enhanced green fluorescent protein (EGFP) gene and human insul in (insulin) gene, and to explore the condition to transfect human umbil ical cord mesenchymal stem cells (hUCMSCs) so as to lay a foundation for tissue engineered adipose reconstruction and transplantation in vivo infuture. Methods The insulin gene was cloned to lentiviral expression vector with EGFP [pLenti6.3-internal ribosome entrysite (IRES)-EGFP] by recombinant DNA technology, the positive clones were screened, and lentiviral packaged systems and target gene plasmid were co-transfected to package virus in 293T cells by lipofectin. The reporter gene expression was observed by fluorescent inverted phase contrast microscope, virus supernatant was collected, purificated and concentrated, and the titer of recombinant viruses was determinated. hUCMSCs from umbilical cord tissue of mature neonates were isolated and cultured by different multiple of infection (MOI, 0, 1, 3, 5, 7, 10, 15, and 20). By recombinant lentiviral infected hUCMSCs with reporter gene green fluorescent protein expression, the best MOI was screened; recombinant lentiviral infected hUCMSCs at the best MOI, then real-time PCR and Western blot methods were appl ied to detect insulin gene and insul in protein expression levels in cells. Results The recombinant lentiviral vector of co-expressing insulin gene and EGFP gene (pLenti6.3-insulin-IRESEGFP) was successfully constructed. Virus could be packaged, purificated and concentrated successfully. The virus titer was 1.3 × 108 TU/mL. The best MOI was 10 and the transfer efficiency was up to 90% in the same time. Real-time PCR results showed that insulin gene expression of transfected group was positive and non-transfected group was negative; Western blot detection confirmed that insul in protein expression of transfected group was positive in cells and supernatant, but that of non-transfected group was both negative. Conclusion Lentiviral vector pLenti6.3-insulin-IRES-EGFP carrying recombinant insulin gene could effectively transfect hUCMSCs and express insul in protein.
目的 构建小鼠甲状腺转录因子-2(TTF-2)转基因动物表达载体(pBROAD3-TTF-2),观察其在小鼠骨髓间充质干细胞(BMSC)中的表达。 方法 从C57BL/6J小鼠肝脏组织中提取基因组DNA,利用聚合酶链式反应方法扩增出TTF-2基因1 113 bp开放阅读框,通过DNA重组技术将TTF-2基因片段插入克隆载体pMD18-T中,经测序正确后,再重组于pBROAD3-mcs中,构建转基因动物表达载体pBROAD3-TTF-2,用酶切电泳分析对其进行鉴定。运用脂质体转染试剂将其转染BMSC后,蛋白质印迹法检测TTF-2基因的表达。 结果 ① DNA测序证实目的基因序列正确无突变,酶切电泳分析得到相应的目的片段,大小与理论计算值一致,成功构建转基因动物表达载体pBROAD3-TTF-2。② 蛋白质印迹法显示转染的BMSC高表达TTF-2蛋白。 结论 成功构建了pBROAD3- TTF-2转基因动物表达载体,显示其转染BMSC后TTF-2基因的表达,为下一步建立TTF-2转基因小鼠模型奠定了基础。
Objective To amplificate,clone and sequence the thymidine kinase (TK) gene of herpes simplex virusⅡ(HSVⅡ); to construct and appraise the fusion gene eukaryon expression vector, pcDNA3/HSVⅡ TK/angiostatin. MethodsThe Hep2 cells were infected by HSVⅡ Sav strain. HSVⅡ genomic DNA was purified from the Hep2 cells suspension and used as template to run PCR for TK gene amplification. The amplified products were cloned into PC DNA3 vector and sequenced. The vector pcDNA/HSVⅡ TK was cut by endonuclease. The gained TK gene was cloned into eukaryon expression vector. pcDNA3/angiostation, which had been constructed. ResultsCoding region of HSVⅡTK gene consisted of 1 128 bp except stop code, it encoded 376 amino acids.After cutting the new vector by endonuclease Hind Ⅲ and BamH Ⅰ,we gained the following gene fragment: 1000 bp (TK) and 700 bp (angiostation).Conclusion The fusion gene eukaryon expression vector, pcDNA3/HSVⅡ TK/angiostatin has been constructed.
This research aims to construct a lentiviral expression vector carrying the extracelluar domain (ED) of human hepatocyte growth factor receptor (C-Met), and to express it in transfected 293T cells. The extracellular domain of C-Met was amplified by RT-PCR, ligated with lentiviral expression vector p RRL-CMV-ED, and then expressed in 293T cell line. The expressed protein was purified and identified by RT-PCR and Western blot. The enzyme digestion and sequence analysis showed that the lentiviral expression vector p RRL-CMV-ED was constructed correctly. The size of amplified genes was about 2 700 bp. The purified protein with Ni-affinity column was about 105 kD analyzed by SDS-PAGE. The Western blot and ELISA results showed that the expressed protein which could bind to HGF specifically was the extracelluar domain of human hepatocyte growth factor receptor. This research may lay a foundation for further study of anti-C-MET monoclonal antibody and neutralizing antibody.
Objective To establish a kind of gene therapy method of rheumatoid arthritis, to construct the interleukin-18-PE38 fusion gene expression vectorand to explore the expression of the fusion gene in the chondrocytes and 3T3 cells. Methods Interleukin-18-PE38 fusion gene was cleaved from plasmid PRKL459k-IL-18-PE38 by restriction enzyme digestion,then linked with vectors PsecTag2B and transformed into competence bacteria, positive clones were selected and confimed by restrictive enzyme(EcoRI) digestion assay. The rearrangement plasmid PsecTag2B-IL-18-PE38 was transfected into 3T3 cells and mouse chondrocytes by liposome protocol(experimental group),null vector was used as negative control, and the transient expression was identified by fluorescence immunocytochemical assay. Results Restrictive enzymes digestion analysis revealed thatthe length of theinterleukin-18-PE38 fusion gene was 6 000 bp. Fluorescence immunocytochemical method showed that fluorescence intensity of the experimental group is b,whilefluorescence intensity of the control group is weak. Conclusion the eukaryoticexpression vector PsecTag2B-IL-18-PE38 is established successfully which canbeexpressed in the 3T3 cells and mouse chodrocytes. Our results lay a foundationfor the further investigation for rheumatoid arthritis therapy.