posted on 2020-06-15, 19:06authored byYoungsik Lee, Jin Myeong Kwak, Jae Seong Lee
Numerous
engineering efforts have been made in Chinese hamster
ovary (CHO) cells for high level production of therapeutic proteins.
However, the dynamic regulation of transgene expression is limited
in current systems. Here, we investigated the effective regulation
of transgene expression in CHO cells via targeted
integration-based endogenous gene tagging with engineering target
genes. Targeted integration of EGFP-human Bcl-2 into the p21 locus
effectively reduced the apoptosis, compared with random populations
in which Bcl-2 expression was driven by cytomegalovirus (CMV) promoter.
Endogenous p21 and EGFP-human Bcl-2 displayed similar expression dynamics
in batch cultures, and the antiapoptotic effect altered the expression
pattern of endogenous p21 showing the mutual influences between expression
of p21 and Bcl-2. We further demonstrated the inducible transgene
expression by adding low concentrations of hydroxyurea. The present
engineering strategy will provide a valuable CHO cell engineering
tool that can be used to control dynamic transgene expression in accordance
with cellular states.