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Accumulative scFv-Fc antibody gene integration into the hprt chromosomal locus of Chinese hamster ovary cells.

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We have previously developed an accumulative site-specific gene integration system (AGIS) using Cre-recombinase and mutated loxP sites. AGIS enables repeated transgene integration into a predetermined chromosomal site in mammalian cells.… Click to show full abstract

We have previously developed an accumulative site-specific gene integration system (AGIS) using Cre-recombinase and mutated loxP sites. AGIS enables repeated transgene integration into a predetermined chromosomal site in mammalian cells. However, the process of establishing cells with multiple integrated copies of the transgene is still time-consuming. In the present study, we describe an improved version of AGIS that facilitates and accelerates the establishment of high-producer Chinese hamster ovary (CHO) cells. Two donor vectors were simultaneously introduced into the cells in a single transfection. Cells with successfully targeted transgene integration were screened based on a change in the color of the reporter fluorescent protein that they express. Repeated rounds of integration allowed the transgene copy number to be increased. As a model, an scFv-Fc antibody gene was integrated into the hprt locus of the CHO cell genome. After three rounds of integration, a high-producer CHO cell clone with six copies of the scFv-Fc gene was successfully established. scFv-Fc productivity was approximately four-fold greater than a control cell line harboring a single copy of the transgene. This newly designed AGIS procedure should facilitate the development of producer cells suitable for biopharmaceutical protein production.

Keywords: integration; hamster ovary; chinese hamster; gene integration; gene; scfv antibody

Journal Title: Journal of bioscience and bioengineering
Year Published: 2017

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