BHRF1 of Epstein-Barr virus, which is homologous to human proto-oncogene bcl2, is not essential for transformation of B cells or for virus replication in vitro.

The Epstein-Barr virus (EBV) genome contains an open reading frame, BHRF1, that encodes a presumptive membrane protein with sequence similarity to the proto-oncogene bcl2, which is linked to human B-cell follicular lymphoma. Potential roles for BHRF1 in EBV's ability to growth transform human B cells and to replicate in B cells in culture were investigated by generating EBV mutants that lack most of the open reading frame. This was accomplished by recombination of plasmids carrying mutations in BHRF1 with the transformation-defective EBV strain P3HR1. Because BHRF1 resides close to the deletion in P3HR1 that renders this strain transformation defective, B-cell transformation could be used to select for recombination events in the region. B-cell clones were established by recombinants which lacked most of the BHRF1 open reading frame, although most of these initial B-cell transformants also carried nonrecombinant (BHRF1+) P3HR1 genomes, at levels ranging from a fraction of a copy to four copies per cell. Secondary B-cell transformants that lacked BHRF1+ EBV at detectable levels were found to release transforming, BHRF1-deficient EBV at levels that were within the normal range for EBV-immortalized B-cell clones. These studies demonstrate that BHRF1 is nonessential for growth transformation of B cells and for virus replication and release from these cells in culture.