A deletion in the gI and gE genes of equine herpesvirus type 4 reduces viral virulence in the natural host and affects virus transmission during cell-to-cell spread.

In order to identify the role of the equine herpesvirus type 4 (EHV-4) glycoprotein I (gI) and E (gE) genes in determining viral virulence and their affect on the infection cycle, we constructed an EHV-4 recombinant strain containing a deletion in both gI and gE genes and its revertant. The recombinant was assayed in vitro in order to compare its growth kinetics with the parent and revertant viruses. Our results indicated that a deletion in the genes encoding gI and gE affected cell-to-cell spread of the virus in vitro. In order to assess the pathogenicity and vaccine efficacy of the recombinant in a natural host, colostrum-deprived foals were inoculated intranasally with the recombinant. Clinical signs obtained in foals upon the inoculation with the recombinant were milder than that for the revertant. This suggests that intact gI and/or gE genes are important factors in the expression of virulence in EHV-4 as in seen in the case of other herpesviruses. In addition, full protection against challenge infection was observed in foals, which had undergone a previous inoculation of the recombinant.