A single EBV-based vector for stable episomal maintenance and expression of GFP in human embryonic stem cells

Author:

Thyagarajan Bhaskar1,Scheyhing Kelly1,Xue Haipeng1,Fontes Andrew1,Chesnut Jon1,Rao Mahendra1,Lakshmipathy Uma1

Affiliation:

1. Primary and Stem Cell Systems, Life Technologies, 5781 Van Allen Way, Carlsbad, CA 92008, USA.

Abstract

Aim: Stable expression of transgenes in stem cells has been a challenge due to the nonavailability of efficient transfection methods and the inability of transgenes to support sustained gene expression. Several methods have been reported to stably modify both embryonic and adult stem cells. These methods rely on integration of the transgene into the genome of the host cell, which could result in an expression pattern dependent on the number of integrations and the genomic locus of integration. To overcome this issue, site-specific integration methods mediated by integrase, adeno-associated virus or via homologous recombination have been used to generate stable human embryonic stem cell (hESC) lines. In this study, we describe a vector that is maintained episomally in hESCs. Methods: The vector used in this study is based on components derived from the Epstein–Barr virus, containing the Epstein–Barr virus nuclear antigen 1 expression cassette and the OriP origin of replication. The vector also expresses the drug-resistance marker gene hygromycin, which allows for selection and long-term maintenance of cells harboring the plasmid. Results: Using this vector system, we show sustained expression of green fluorescent protein in undifferentiated hESCs and their differentiating embryoid bodies. In addition, the stable hESC clones show comparable expression with and without drug selection. Consistent with this observation, bulk-transfected adipose tissue-derived mesenchymal stem cells showed persistent marker gene expression as they differentiate into adipocytes, osteoblasts and chondroblasts. Conclusions: Episomal vectors offer a fast and efficient method to create hESC reporter lines, which in turn allows one to test the effect of overexpression of various genes on stem cell growth, proliferation and differentiation.

Publisher

Future Medicine Ltd

Subject

Embryology,Biomedical Engineering

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