Identification and characterization of a benzothiophene inhibitor of herpes simplex virus type 1 replication which acts at the immediate early stage of infection.

Analysis of a large compound library in a high throughput virus infection assay screen identified the benzothiophene PD146626 as a potent and specific inhibitor of herpes simplex virus type 1 (HSV-1) replication. PD146626 possessed an EC(50) and EC(90) against HSV-1 of 0.1 and 1 microM, respectively, and mediated no detectable cytotoxicity in cells at concentrations up to 1 microM. Western blot analyses and time of addition experiments demonstrated that in the presence of PD146626 HSV-1 underwent a specific block in viral gene expression at the immediate early stage. However, several observations indicated that a cellular function rather than a viral immediate early transactivator protein represented the molecular target for PD146626, including the lack of resistance of VP16 and ICP0 mutant viruses to the compound, the inability to select resistant strains of HSV-1 following exhaustive serial passaging of virus in the presence of the compound, and the sensitivity of human cytomegalovirus, which lacks VP16 and ICP0 homologs, to the compound. Moreover, kinetic studies suggested an unusual pattern of responsiveness of the host cell to PD146626, in that the compound could induce an extended antiviral state in cells after only a brief exposure. Together these results suggest that PD146626 targets a novel cellular function that is critical for the expression of HSV-1 immediate early genes but not host cell genes.

Cross-reactivity of the anti-PML antibody PG-M3 with the herpes simplex virus type 1 immediate early protein ICP4.

The PML protein is one of the components of ND10, nuclear matrix-associated structures which undergo rapid disintegration at the onset of herpes simplex virus type 1 (HSV-1) infection. This disruption event has been frequently visualized in immunofluorescence assays using the anti-PML mouse monoclonal antibody PG-M3. This antibody was surprisingly found to also stain nuclear virus replication compartments when employed at higher concentrations. This was shown to be due to an unexpected cross-reactivity of the PG-M3 antibody with the HSV-1 immediate early protein ICP4, a known component of replication compartments. The sequences of ICP4 recognized by PG-M3 were found to map to the extreme amino-terminal end of the protein, which includes a 21 amino acid segment that is partially homologous to the peptide of PML that was used to make PG-M3. These results suggest that PG-M3 may no longer represent an appropriate antibody for use in visualizing the fate of PML and ND10 during HSV-1 infection.