A cytomegaloviral protein reveals a dual role for STAT2 in IFN-γ signaling and antiviral responses

A mouse cytomegalovirus (MCMV) gene conferring interferon (IFN) resistance was identified. This gene, M27, encodes a 79-kD protein that selectively binds and down-regulates for signal transducer and activator of transcription (STAT)-2, but it has no effect on STAT1 activation and signaling. The absence of pM27 conferred MCMV susceptibility to type I IFNs (α/β), but it had a much more dramatic effect on type II IFNs (γ) in vitro and in vivo. A comparative analysis of M27⁺ and M27⁻ MCMV revealed that the antiviral efficiency of IFN-γ was partially dependent on the synergistic action of type I IFNs that required STAT2. Moreover, STAT2 was directly activated by IFN-γ. This effect required IFN receptor expression and was independent of type I IFNs. IFN-γ induced increasing levels of tyrosine-phosphorylated STAT2 in M27⁻ MCMV-infected cells that were essential for the antiviral potency of IFN-γ. pM27 represents a new strategy for simultaneous evasions from types I and II IFNs, and it documents an unknown biological significance for STAT2 in antiviral IFN-γ responses.