Biologically significant interaction of human herpesvirus 8 viral interferon regulatory factor 4 with ubiquitin-specific protease 7.

Abstract

HHV-8 homologs of cellular interferon regulatory factors (IRFs), involved in host-cell defense against virus infection, interact in an inhibitory fashion with IRFs and other mediators of antiviral innate immunity. These interactions are of demonstrated or hypothesized importance for successful primary, productive (lytic), and latent (persistent) infection by HHV-8. While HHV-8 vIRF-4 is known to interact physically with USP7 deubiquitinase, a key regulator of various cellular proteins, the functional and biological significance of the interaction has not been addressed. The present study identifies the interaction as important for HHV-8 productive replication and, indeed, for vIRF-4 expression and reveals a new function of vIRF-4 via inhibition of the activity of TRAF3, a pivotal mediator of host-cell antiviral activity through activation of cellular IRFs and induction of type-I interferons. These findings identify potential targets for the development of novel anti-HHV-8 agents, such as those able to disrupt vIRF-4-USP7 interaction or vIRF-4-stabilizing USP7 activity.