Construction and properties of a recombinant pseudorabies virus with tetracycline-regulated control of immediate-early gene expression

A study was carried out to determine whether altering the control of expression of the IE180 gene of pseudorabies virus (PRV), by replacing the IE180 promoter with the tetracycline-responsive promoter (Ptet), affects virus replication and virulence. This PRV-BT90 mutant virus was constructed by complementation and recombination in Hela Tet-Off cells. The virus yield produced by infection of Hela Tet-Off cells with PRV-BT90 was similar to that of the parental virus vBecker2. Viral replication of PRV-BT90 was reduced in Vero cells as reflected by a reduction of virus yield and plating efficiency compared to vBecker2. PRV-BT90 plaque formation in Hela Tet-Off cells was inhibited in the presence of doxycycline, whereas vBecker2 plaque formation was not affected. Subcutaneous infection of mice with the two viruses revealed a LD₅₀ higher than 10⁶ TCID₅₀ for the PRV-BT90 mutant virus while the LD₅₀ was 178 TCID₅₀ for the vBecker2 parental virus.     

Enhanced green fluorescent protein as a marker for localizing murine cytomegalovirus in acute and latent infection

A recombinant murine cytomegalovirus (mCMV) that expresses enhanced green fluorescent protein (EGFP) under control of the native immediate-early 1/3 promoter was constructed to detect directly sites of viral activity in latent and reactivated infections. The recombinant virus had acute and latent infection characteristics similar to those of wild-type mCMV. Rare green-fluorescing foci were observed in paraffin sections from lungs and spleens infected latently. Positive immunoperoxidase staining for EGFP in sections of the same lung tissues suggests that these cells may be sites of restricted viral gene expression. EGFP was detected easily in tissue explants reactivating from latent infection in vitro. Morphology and adhesion characteristics of fluorescing cells suggest that viral reactivation occurs in tissue macrophages in explant cultures. The observations presented in this study demonstrate the usefulness of EGFP-expressing recombinants as tools for direct tracking of mCMV activity in vivo and in vitro.     

Evidence for direct transfer of cytoplasmic material from infected to uninfected cells during cell-associated spread of human cytomegalovirus.

Cell-associated spread is assumed to be the predominant mode of human cytomegalovirus (HCMV) dissemination in infected patients, however the underlying mechanisms are poorly understood. We tested the hypothesis that cell-to-cell spread of HCMV may be associated with direct transfer of cytoplasmic material by analyzing focal growth of green fluorescent HCMVDeltaUL16GFP. In this recombinant virus, UL16 was partially replaced by the green fluorescent protein (EGFP). The resulting HCMVDeltaUL16GFP showed unrestricted growth and expressed EGFP from the early UL16 promoter. EGFP transmission was then investigated in relation to viral spread from productively infected cells to cocultured uninfected cells. Alternatively, microinjection of fluorescent dextrane allowed for direct visualization of inter-cell-connections. Within 5h of coculture, 8% of cells neighbouring productively infected cells had acquired EGFP. Detection of EGFP in the absence of IE antigen and during cycloheximide block excluded the possibility of de novo synthesis. Immediate distribution of microinjected fluorescent dyes from infected cells to adjacent cells proved the existence of cell-cell-fusions. These data demonstrate that focal spread of HCMV is associated with direct transfer of cytoplasmic material, most likely through cell-cell-fusions. This would withdraw the virus from the control of neutralizing antibodies and thus provide an explanation for the limited antiviral effect of the humoral immune response.     

Use of an N-terminal half truncated IE1 as an antagonist of IE1, an essential regulatory protein in baculovirus

An immediate-early gene product of baculovirus, IE1, is essential for viral gene expression and for viral DNA replication. It has been demonstrated for Autographa californica nuclear polyhedrosis virus (AcNPV) that the C-terminal region of IE1 is required for dimerization. And the acidic N-terminal region of IE1 has been identified as the activation domain. We constructed an N-terminal 267 amino acid (a.a.) truncated mutant of Bombyx mori nuclear polyhedrosis virus (BmNPV) IE1, which was defective as a transactivator of a viral early gene (p35) promoter. We then examined possible IE1 antagonistic functions of this defective IE1, IE1TN, in BmNPV-infected cells. A transient expression experiment demonstrated that IE1TN strongly repressed the activation of the hr5-dependent p35 promoter derived from BmNPV infection. In addition, DpnI assay elucidated an inhibitory effect of IE1TN on the hr5-dependent replication of plasmid in BmN cells induced by NPV infection. A marked reduction in the production of virus was observed when the BmN cells were infected with BmNPV after transfection with IE1TN-expression plasmids. These results suggested that IE1TN could act as an IE1 antagonist in silkworm cells infected with BmNPV. We then analyzed the ability of IE1TN to inhibit the multiplication of BmNPV using transgenic silkworms. The BmNPV-resistance of the transgenic silkworms was very weak, suggesting insufficient expression of the transgene product, IE1TN.     

A murine model of pseudorabies virus latency.

The mouse is a useful laboratory animal for studying various aspects of pseudorabies virus (PRV) virulence. Mice are highly susceptible hosts for PRV infection and are unable to survive acute viral infection. Because of this, mouse models have not been useful for studying PRV latent infections. Here, we report an efficient strategy for establishing latent PRV infections in laboratory mice. Passive transfer of high titered neutralizing antibodies to mice prior to inoculation with highly lethal doses of PRV (Bartha) resulted in survival rates of at least 60% with establishment of latent infections in survivors. Latent PRV infection in mice was demonstrated by: (1) recovery of infectious PRV-Bartha from explants of trigeminal ganglion (TG), and (2) detection of PRV nucleic acids in latently infected TGs by in situ hybridization and polymerase chain reaction (PCR), between 2-8 months post-infection. This PRV latency model indicates that attenuated PRV strains, those currently used extensively in vaccination programs worldwide, can establish a reactivatable latent infection in an experimental host. The mouse model may be particularly useful for examining the molecular bases of PRV latency and reactivation.     

Mapping of a functional region conferring nuclear localization of pseudorabies virus immediate-early protein

Summary The immediate-early protein (IE180) of pseudorabies virus (PrV) is localized predominantly in the nuclei of infected cells. To define the nuclear localization signals within IE180, we prepared truncated mutants of IE180 and analyzed their localization in the transfected cells by indirect immunofluorescence. Analysis of mutants truncated from the carboxy-terminal end of the 1460-amino acid polypeptide showed that two regions including a short sequence of basic amino acid residues were associated with the nuclear localization of IE180. To assess whether these regions substantially function as signals for nuclear localization of the IE180 molecule, we then constructed two deletion mutants lacking each region. A mutant lacking amino acids 333 to 575 was detected in the nuclei of the transfected cells, whereas the other mutant lacking amino acids 900 to 950 was detected mainly in the cytoplasm. These results suggest that the region of amino acids 900 to 950 is responsible for nuclear localization of IE180.     

Tyrosine phosphorylation and lipid raft association of pseudorabies virus glycoprotein E during antibody-mediated capping

In specific cell types infected with the alphaherpesviruses herpes simplex virus and pseudorabies virus (PRV), addition of virus-specific antibodies results in redistribution of cell-surface-anchored viral proteins. This redistribution is triggered by the viral protein gE and consists of the directional movement of the antibody-antigen complexes to one pole of the cell. This viral capping process has been associated with increased antibody-resistant virus spread and strongly resembles immunoreceptor capping, a process that is crucial in activation of different immune cells (e.g. capping of Fcgamma-receptors, B and T cell receptors). Here, we report that the PRV gE-mediated viral capping process results in increased Src kinase-mediated tyrosine phosphorylation of the cytoplasmic domain of gE and that a fraction of gE associates with lipid rafts, all very reminiscent of immunoreceptor capping. These results provide evidence that gE-mediated capping is a viral mimicry of immunoreceptor capping.