STAT1 pathway is involved in activation of caprine arthritis-encephalitis virus long terminal repeat in monocytes

Abstract

The caprine arthritis-encephalitis virus (CAEV) long terminal repeat (LTR) is activated by gamma interferon (IFN-gamma) in promonocytic cells. We have previously shown that a 70-bp element is necessary and sufficient for the response of the CAEV LTR to this cytokine. At the 5' end, this 70-bp IFN-gamma response element contains sequence similarity to the gamma activated site (GAS). Here we demonstrate that the putative GAS element in the CAEV LTR binds specifically to a cellular factor induced by IFN-gamma in promonocytic cells. Substitution mutations in this consensus sequence eliminate binding of the inducible factor. The GAS element from the 70-bp motif is sufficient to confer responsiveness to IFN-gamma using a heterologous minimal promoter. Consistent with the binding data, the same mutations in the GAS element eliminate responsiveness to IFN-gamma in the context of both a functional CAEV LTR and a heterologous promoter. The cellular factor that binds to the GAS element is present from 5 min to 14 h after stimulation with IFN-gamma. Binding of the nuclear factor to the GAS element in the CAEV LTR is inhibited by antibody directed against STAT1 (p91/84). Thus, the GAS sequence in the CAEV LTR is essential for the response to IFN-gamma and a STAT1-like factor binds to this site. The STAT-1 signaling pathway provides at least one mechanism for activation of the CAEV LTR by IFN-gamma in monocytes. These data are the first demonstration of a role for a STAT family member in the regulation of a viral promoter.