Equid herpesvirus type 3 infection produces membrane-associated and secreted forms of glycoprotein G that are not required for efficient cell-to-cell spread of the virus in vitro.

The ORF 70 gene of equid alphaherpesvirus type 3 (EHV-3) encodes glycoprotein G (gG), which is conserved in the majority of alphaherpesviruses. This glycoprotein is located in the viral envelope and has the characteristic of being secreted into the culture medium after proteolytic processing. It modulates the antiviral immune response of the host by interacting with chemokines. The aim of this study was to identify and characterize EHV-3 gG. By constructing viruses with HA-tagged gG, it was possible to detect gG in lysates of infected cells, their supernatants, and purified virions. A 100-, 60-, and 17-kDa form of the protein were detected in viral particles, while a 60-kDa form was identified in supernatants of infected cells. The role of EHV-3 gG in the viral infection cycle was assessed by the construction of a gG-minus EHV-3 mutant and its gG-positive revertant. When growth characteristics in an equine dermal fibroblast cell line were compared, the plaque size and the growth kinetics of the gG-minus mutant were similar to those of the revertant virus, suggesting that EHV-3 gG does not play a role in direct cell-to-cell transmission or virus proliferation of EHV-3 in tissue culture. The identification and characterization of EHV-3 gG described here provide a solid background for further studies to assess whether this glycoprotein has a function in modulating the host immune response.

The nucleotide sequence of the glycoprotein G homologue of equine herpesvirus 3 (EHV3) indicates EHV3 is a distinct equid alphaherpesvirus.

EHV3 causes equine coital exanthema and has been classified as an alphaherpesvirus on the basis of its biological properties; however due to the absence of any sequence information the phylogenetic relationship has not previously been examined. The complete nucleotide sequence of the EHV3 glycoprotein G (gG) gene was determined and showed that this virus is most closely related to the alphaherpesviruses equine herpesviruses type 1 (EHV 1) and type 4 (EHV4). EHV3 gG contains conserved and variable regions which are homologous to those previously defined for EHV1 and EHV4 gG proteins. Consistent with EHV1 and EHV4 gG, the variable region of EHV3 gG was found to elicit a strong antibody response in experimentally and naturally infected horses and could be exploited for use as a diagnostic reagent.

Molecular pathogenesis of equine coital exanthema: temperature-sensitive function(s) in cells infected with equine herpesviruses.

Preliminary experiments have revealed that several laboratory and wild-type strains of the equine herpesvirus (EHV) triad were temperature-sensitive for growth when assayed at 39 degrees C. The efficiencies of plating (EOP) observed were 10(-2) for both EHV 1 and 2, and 1 X 10(-6) for EHV 3. The EOPs were determined by plaque assays which compared titrations at 34 degrees C and 39 degrees C on equine fetal dermal fibroblast cells. Growth yield experiments, assayed at 34 degrees C, reflected those EOP's, but did not indicate any difference in yields when infected cultures were incubated at 34 degrees C and 37 degrees C. Temperature shift experiments with EHV 3-infected cultures revealed that a temperature-sensitive function(s) responsible for the reduction in titer appeared to be a late function(s). All strains examined appeared to incorporate H3-thymidine into viral-density DNA at the non-permissive temperature of 39 degrees C. Electron microscopy of EHV 3-infected cell cultures, incubated continuously at the non-permissive temperature and examined at 18 h after infection, revealed structures consistent with the accumulation of nucleocapsids within the nucleus. The evidence presented is consistent with the hypothesis that in equine dermal cells infected with a plaque-purified wild-type strain of EHV 3 (1118LP), a function needed for the egress of nucleocapsids from the nucleus is absent at 39 degrees C. The significance of these findings relative to the pathogenicity of the disease (equine coital exanthema) caused by this virus is discussed.