PcDNA3.1(+)-MCP-1和PcDNA3.1(+)-Groα真核表达质粒的构建及鉴定

目的:构建并鉴定真核表达质粒pcDNA3.1(+)-MCP-1和pcDNA3.1(+)-Groα.方法:据GeneBank中大鼠MCP-1和GroαcDNA序列设计并合成引物,提取急性胰腺炎模型大鼠总RNA,RT-PCR扩增,并将扩增产物TA克隆至pGEM-T easy载体,然后分别双酶切pGEM-MCP-1和pGEM-Groα回收目的片段再克隆至真核表达载体pcDNA3.1(+).结果:pcDNA3.1(+)-MCP-1和pcDNA3.1(+)-Groα真核表达质粒构建完成后,用限制性内切酶、PCR及DNA序列分析等多种方法进行鉴定,证实其构建成功.结论:pcDNA3.1(+)-MCP-1和pcDNA3.1(+)-Groα真核表达质粒构建成功,为进一步研究该真核表达质粒的免疫保护效果及制备急性胰腺炎pcDNA3.1(+)-MCP-1和pcDNA3.1(+)-Gro DNA疫苗奠定了基础.

To construct and express a human-mouse chimeric antibody against human bladder cancer. Method: The variable region genes of anti-human bladder cancer monoclonal antibody BDI-1 were cloned by RT-PCR. A human-mouse chimeric antibody expression vector was constructed and transfected into CHO cells. The chimeric antibody against bladder cancer was expressed and characterized. Result: Eukaryotic expression vector of the chimeric antibody against human bladder carcinoma was successfully constructed, and was expressed in eukaryotic cells; the expressed chimeric antibody ch-BDI showed same specificity as its parent McAb against human bladder cancer cells. Conclusion: The constructed chimeric antibody was expressed successfully in eukaryotic cells, and the chimeric antibody had desired affinity against human bladder cancer cells.

Objective. To evaluate the Plasmodium falciparum CTL epitope vaccines in HLA class I allele specific human cell lines that have high frequency among Chinese population. Methods. Synthesized oligonucleotides encoding for P.f. CTL epitope genes, constructed eukaryotic expression plasmids, transfected the minigenes into HLA class I allele specific human cell lines and identified endogenous expressing of the minigenes by RT-PCR and HLA stabilization assay. Results. Two mini-genes encoding Plasmodium falciparum CTL epitopes were designed and cloned, respectively, into an eukaryotic expressing vector to form TR26 which was restricted to HLA-B51, SH6 which was restricted to HLA-A2.1, and TS, which had the two aforementioned mini-genes fused in tandem. All of these CTL epitope genes were transfected and endogenously expressed in respective cell lines containing appropriate HLA molecules. The obviously increased expressions of HLA class I molecules were detected in the transfected cell lines. It was demonstrated that the two discrete Plasmodium falciparum epitope genes were effectively processed and presented, and the close proximity of the two epitope genes in one chain as in mini-gene TS did not interfere with the processing and presenting of each epitope gene in corresponding cell line. Conclusion. A successful expression and presentation of multiple CTL epitope mini-gene in MHC class I allele specific human cell lines were demonstrated by an in vitro assay, which could be corresponding to the vaccination of CTL vaccines in people with different MHC I molecules. This work also suggested the possibility of constructing a multiple CTL epitope plasmodium falciparum DNA vaccine that could cover most of Chinese population.