Generation, characterization and exploiting caprine herpesvirus 1 secreted glycoprotein D

Caprine herpesvirus 1 (CpHV-1), a member of the Herpesvirales order, Herpesviridae family, Alphaherpesvirinae subfamily, and Simplexvirus genus, is classically associated to two distinct clinical syndromes. In kids, CpHV-1 induces severe systemic disease with high morbidity and mortality, in adult goats, the infection leads to genital lesions such as vulvovaginitis or balanoposthitis, with abortions occurring mainly in the second half of gestation. CpHV-1 shares several biological characteristics with human herpesvirus 2 (HSV-2), including molecular features, tropism for vaginal epithelium, genital lesion nature and latency in the sacral ganglia. These features make CpHV-1-infected goats a reliable animal model for studying human herpesvirus-induced genital disease, employable for pathogenic research, as well as the development of new vaccines and antiviral agents. Recent full sequencing of CpHV-1 genome has identified at least ten genes encoding glycoproteins. Among these, glycoprotein D (gD) has been characterized but not yet exploited for immunogenic or diagnostic purposes. In this study, the structural features of CpHV-1 gD were predicted using in silico analysis. A truncated version of gD lacking the transmembrane domain (Sec-gD) was subsequently generated and expressed in mammalian cells, enabling its secretion into the culture medium. Despite the structural modifications, Sec-gD retained a conserved glycosylation pattern, as confirmed by PNGase F treatment. Furthermore, the antigenic properties of Sec-gD were preserved, as demonstrated by reverse serum neutralization assays. Notably, the culture supernatant containing Sec-gD was directly usable in diagnostic enzyme-linked immunosorbent assays, supporting its potential as a valuable tool for both diagnostic and immunization strategies.