An earlier report showed that herpes simplex virus 1 (HSV-1) expresses two microRNAs (miRNAs), miR-H28 and miR-H29, late in the infectious cycle. The miRNAs are packed in exosomes and, in recipient cells, restrict the transmission of virus from infected cells to uninfected cells. We now report that (i) miR-H28 induced the synthesis of gamma interferon (IFN-γ) in both infected cells and cells transfected with miR-H28, (ii) IFN-γ accumulated concurrently with viral proteins in infected cells, (iii) IFN-γ was produced in HEp-2 cells derived from cancer tissue and in HEK293T cells derived from normal tissue, and (iv) HSV-1 replication was affected by exposure to IFN-γ before infection but not during or after infection. The results presented in this report support the growing body of evidence indicating that HSV-1 encodes functions designed to reduce the spread of infection from infected cells to uninfected cells, possibly in order to maximize the transmission of virus from infected individuals to uninfected individuals.
IMPORTANCE In this report, we show that IFN-γ is produced by HSV-1 viral miR-H28 and viral replication is blocked in cells exposed to IFN-γ before infection but not during or after infection. The inevitable conclusion is that HSV-1 induces IFN-γ to curtail its spread from infected cells to uninfected cells. In essence, this report supports the hypothesis that HSV-1 encodes functions that restrict the transmission of virus from cell to cell.
The stress response genes encoding GADD45␥, and to a lesser extent GADD45, are activated early in infection with herpes simplex virus 1 (HSV-1). Cells that had been depleted of GADD45␥ by transfection of short hairpin RNA (shRNA) or in which the gene had been knocked out (ΔGADD45␥) yielded significantly less virus than untreated infected cells. Consistent with lower virus yields, the ΔGADD45␥ cells (either uninfected or infected with HSV-1) exhibited significantly higher levels of transcripts of a cluster of innate immunity genes, including those encoding IFI16, IFIT1, MDA5, and RIG-I. Members of this cluster of genes were reported by this laboratory to be activated concurrently with significantly reduced virus yields in cells depleted of LGP2 or HDAC4. We conclude that innate immunity to HSV-1 is normally repressed in unstressed cells and repression appears to be determined by two mechanisms. The first, illustrated here, is through activation by HSV-1 infection of the gene encoding GADD45␥. The second mechanism requires constitutively active expression of LGP2 and HDAC4. IMPORTANCE Previous studies from our laboratory reported that knockout of some innate immunity genes was associated with increases in the expression of overlapping networks of genes and significant loss of the ability to support the replication of HSV-1; knockout of other genes was associated with decreases in the expression of overlapping networks of genes and had no effect on virus replication. In this report, we document that depletion of GADD45␥ reduced virus yields concurrently with significant upregulation of the expression of a cluster of innate immunity genes comprising IFI16, IFIT1, MDA5, and RIG-I. This report differs from the preceding study in an important respect; i.e., the preceding study found no evidence to support the hypothesis that HSV-1 maintained adequate levels of LGP2 or HDAC4 to block upregulation of the cluster of innate immunity genes. We show that HSV-1 causes upregulation of the GADD45␥ gene to prevent the upregulation of innate immunity genes.
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