Characterization of conditions for the activation of endogenous guinea pig retrovirus in cultured cells by 5-bromo-2'-deoxyuridine.

Abstract

Human endogenous retroviral sequences recently have been shown to be associated with breast cancer and some leukemias. These retroviral sequences have similarities to an endogenous retrovirus expressed in guinea pigs. The conditions for activation of this guinea pig retrovirus (GPRV) in cultured guinea pig embryo (GPE) cells using 5-bromo-2'-deoxyuridine (BrdU) was investigated. These studies employed the reverse transcriptase activity (RT) assay and electron microscopy (EM), in conjunction with Northern blot analysis that utilized a 2.6 kb GPRV-specific cDNA probe. Contrary to published studies, dexamethasone at concentrations ranging from 10(-8) to 10(-5) M appeared to play a minimal role in enhancing the production of GPRV. Following a 6 hr incubation with BrdU, GPRV mRNA was present in cultured GPE cells. Extracellular virion release was also observed by EM 12 hr later, although RT activity was not detected. All three methods detected viral expression at 48 hr after the addition of the drug. Additionally, after 6 hr exposure to BrdU, detectable RT and mRNA levels were maintained through 44 days after the removal of BrdU in a stationary culture condition and through 31 days in cultures that were subcultured weekly in media not containing BrdU. Low levels of extracellular viruses were detected in these cultures by electron microscopy through 49 days. Therefore, after only a 6 hr exposure to BrdU was extracellular GPRV detected 12 hr after drug removal and virus production continued for up to 49 days. This study provides information about an animal endogenous retroviral system that may be used as a model for the study of human endogenous retroviruses.