An ITAM in a nonenveloped virus regulates activation of NF-κB, induction of beta interferon, and viral spread.

ABSTRACT

Immunoreceptor tyrosine-based activation motifs (ITAMs) are signaling domains located within the cytoplasmic tails of many transmembrane receptors and associated adaptor proteins that mediate immune cell activation. ITAMs also have been identified in the cytoplasmic tails of some enveloped virus glycoproteins. Here, we identified ITAM sequences in three mammalian reovirus proteins µ2, σ2, and λ2. We demonstrate for the first time that µ2 is phosphorylated, contains a functional ITAM, and activates NF-κB. Specifically, µ2 and µNS recruit the ITAM-signaling intermediate Syk to cytoplasmic viral factories and this recruitment requires the µ2 ITAM. Moreover, both the µ2 ITAM and Syk are required for maximal µ2 activation of NF-κB. A mutant virus lacking the µ2 ITAM activates NF-κB less efficiently and induces lower levels of the downstream antiviral cytokine beta interferon (IFN-ß) than does wild-type virus despite similar replication. Notably, the consequences of these µ2 ITAM effects are cell type specific. In fibroblasts where NF-κB is required for reovirus-induced apoptosis, the µ2 ITAM is advantageous for viral spread and enhances viral fitness. Conversely, in cardiac myocytes where the IFN response is critical for antiviral protection and NF-κB is not required for apoptosis, the µ2 ITAM stimulates cellular defense mechanisms and diminishes viral fitness. Together, these results suggest that the cell type-specific effect of the µ2 ITAM on viral spread reflects the cell type-specific effects of NF-κB and IFN-ß. This first demonstration of a functional ITAM in a nonenveloped virus presents a new mechanism for viral ITAM-mediated signaling with likely organ-specific consequences in the host.