Establishment of an oriP Replicon Is Dependent upon an Infrequent, Epigenetic Event

Abstract

ABSTRACT Plasmids containing oriP , the latent origin of replication for Epstein-Barr virus, support efficient replication in selected cell clones when the viral protein EBNA-1 is provided, being lost at a rate of 2 to 4% per cell generation after removal of selection (A. L. Kirchmaier and B. Sugden, J. Virol. 69:1280–1283, 1995; B. Sugden and N. Warren, Mol. Biol. Med. 5:85–94, 1988). We refer to these plasmids as established replicons in that they support efficient DNA synthesis and partitioning each cell cycle. Unexpectedly, we have found that upon introduction of oriP plasmids into a population of EBNA-1-positive cells, oriP plasmids replicate but are lost precipitously from cells during 2 weeks posttransfection (>25% rate of loss per cell generation). Upon investigation of these disparate observations, we have found that only 1 to 10% of cells transfected with an oriP plasmid expressing EBNA-1 and hygromycin phosphotransferase give rise to drug-resistant clones in which the oriP replicon is established. A hereditable alteration in these drug-resistant cell clones, manifested at the genetic or epigenetic level, does not underlie the establishment of oriP , as newly introduced oriP plasmids replicate but are also lost rapidly from these cells. In addition, a genetic alteration in the oriP plasmid is not responsible for establishment, as oriP plasmids isolated from an established cell clone, propagated in Escherichia coli , and reintroduced into EBNA-1-positive cells are likewise established inefficiently. Our findings demonstrate that oriP replicons are not intrinsically stable in EBNA-1-positive cell lines. Rather, the establishment of an oriP replicon is conferred upon the replicon by a stochastic, epigenetic event that occurs infrequently and, therefore, is detected in only a minority of cells.