Jihong Zhang, Lin Wang, Xi Zhang, Qiuli Sun, Junhe Zhang
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引用次数: 0
摘要
我们之前发现,载体中基质连接区(MAR)的位置会显著影响其在重组蛋白生产中增强转基因表达的能力。本研究旨在系统研究 MAR 对转基因表达的位置依赖性影响。我们观察到,当 MAR 位于启动子上游时,用 MAR 1-68 或 MAR X-29 稳定转染 CHO-K1 细胞,增强型绿色荧光中心蛋白(eGFP)的表达水平明显增加。当 MAR 位于表达盒两侧时,这种增加尤为明显。同时,还观察到表达 eGFP 的细胞比例大幅增加,含 MAR 的构建体中表达 eGFP 的细胞比例分别为 97.8%和 96.0%,而不含 MAR 的构建体中表达 eGFP 的细胞比例仅为 73.7%。对促红细胞生成素(EPO)表达的进一步分析表明,侧翼含有 MAR 的构建体诱导的 EPO 产率最高。生物信息学分析表明,某些特定的转录因子在调节转录过程中起着重要作用。总之,在表达盒周围携带两个 MAR 的载体是在 CHO-K1 细胞中提高重组蛋白产量的最佳构建体。这一观点强调了在载体设计中加入策略性 MAR 对优化重组蛋白表达的重要性。
Matrix attachment regions enhance transgene expression by manipulating position-dependent effects in stably transfected CHO-K1 cells.
We previously found that the position of matrix attachment regions (MARs) within the vector significantly affects its ability to enhance transgenic expression in the recombinant protein production. This study aims to systematically investigate the position-dependent impacts of MAR on transgene expression. We observed a significant increase in enhanced green fluorescent protein (eGFP) expression levels in stably transfected CHO-K1 cells with either MAR 1-68 or MAR X-29 when MARs located upstream of the promoter. This increase was especially evident with MAR flanked the expression cassette. Concurrently, a substantial increase was observed in the percentage of eGFP-expressing cells, with 97.8% and 96.0% in MAR-containing constructs versus 73.7% in MAR-absent constructs. Further analysis of erythropoietin (EPO) expression revealed that constructs with flanking MARs induced the highest EPO productivity. Bioinformatics analysis revealed that certain specific transcription factors are important in modulating the transcription process. In conclusion, vectors harboring both MARs around the expression cassette constitute an optimal construct for enhanced recombinant protein production in CHO-K1 cells. This insight underscores the importance of strategic MAR incorporation in vector design for optimized recombinant protein expression.
期刊介绍:
Published since 1929, Biochemistry and Cell Biology explores every aspect of general biochemistry and includes up-to-date coverage of experimental research into cellular and molecular biology in eukaryotes, as well as review articles on topics of current interest and notes contributed by recognized international experts. Special issues each year are dedicated to expanding new areas of research in biochemistry and cell biology.