Abstract

Matrix attachment regions (MARs) are cis-acting DNA elements that can increase transgene expression levels in a CHO cell expression system. To investigate the effects of MAR combinations on transgene expression and the underlying regulatory mechanisms, we generated constructs in which the enhanced green fluorescent protein (eGFP) gene flanked by different combinations of human β-interferon and β-globin MAR (iMAR and gMAR, respectively), which was driven by the cytomegalovirus (CMV) or simian virus (SV) 40 promoter. These were transfected into CHO-K1 cells, which were screened with geneticin; eGFP expression was detected by flow cytometry. The presence of MAR elements increased transfection efficiency and transient and stably expression of eGFP expression under both promoters; the level was higher when the two MARs differed (i.e., iMAR and gMAR) under the CMV but not the SV40 promoter. For the latter, two gMARs showed the highest activity. We also found that MARs increased the ratio of stably transfected positive colonies. These results indicate that combining the CMV promoter with two different MAR elements or the SV40 promoter with two gMARs is effective for inducing high expression level and stability of transgenes.

Highlights

  • Matrix attachment regions (MARs) are cis-acting DNA elements that can increase transgene expression levels in a Chinese hamster ovary (CHO) cell expression system

  • The present study investigated the ideal combination of CMV or SV40 promoter with gMAR and iMAR for maximal and stable transgene expression in CHO cells

  • We found that matrix attachment regions (MARs) increased the transfection efficiency and enhanced green fluorescent protein (eGFP) expression relative to those in the control vector, with SV40 promoter being superior to the CMV promoter

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Summary

Introduction

Matrix attachment regions (MARs) are cis-acting DNA elements that can increase transgene expression levels in a CHO cell expression system. To investigate the effects of MAR combinations on transgene expression and the underlying regulatory mechanisms, we generated constructs in which the enhanced green fluorescent protein (eGFP) gene flanked by different combinations of human β-interferon and β-globin MAR (iMAR and gMAR, respectively), which was driven by the cytomegalovirus (CMV) or simian virus (SV) 40 promoter. These were transfected into CHO-K1 cells, which were screened with geneticin; eGFP expression was detected by flow cytometry. We previously demonstrated that human β-interferon and β-globin MARs (iMAR and gMAR, respectively) used in combination more potently enhanced transgene expression as compared to two identical MARs22

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