Phenotypic Characterization of a Virulent PRRSV-1 Isolate in a Reproductive Model With and Without Prior Heterologous Modified Live PRRSV-1 Vaccination

Heinrich Kreutzmann; Julia Stadler; Christian Knecht; Elena L. Sassu; Ursula Ruczizka; Yury Zablotski; Eleni Vatzia; Gyula Balka; Marianne Zaruba; Hann-Wei Chen; Christiane Riedel; Till Rümenapf; Andrea Ladinig

doi:10.3389/fvets.2022.820233

You are here: University of Veterinary Medicine Vienna PHAIDRA Detail o:1931

Title

Phenotypic Characterization of a Virulent PRRSV-1 Isolate in a Reproductive Model With and Without Prior Heterologous Modified Live PRRSV-1 Vaccination

Language

English

Description (en)

Reproductive disorders induced by porcine reproductive and respiratory syndrome virus (PRRSV) cause high economic losses in the pig industry worldwide. In this study, we aimed to phenotypically characterize a virulent PRRSV-1 subtype 1 isolate (AUT15-33) in a reproductive model. Furthermore, the protective effect of a heterologous modified live virus vaccine (ReproCyc® PRRS EU) was evaluated. In addition, PRRSV AUT15-33 was genotypically compared to other well-characterized isolates. Sixteen gilts were equally divided into four groups: a vaccinated and infected group (V-I), a vaccinated and non-infected group (V-NI), a non-vaccinated and infected group (NV-I), and a non-vaccinated and non-infected (NV-NI) group. After PRRSV infection on gestation day 84, all gilts were clinically examined on a daily basis, and blood samples were taken at five timepoints. Necropsy was performed 3 weeks after infection. The fetal preservation status was assessed, and PRRSV RNA concentrations were measured in the blood and tissue samples from all gilts and fetuses. After infection, all four gilts in the NV-I group were viremic throughout 17 days post-infection (dpi), whereas two gilts in the V-I group were viremic at only one timepoint at 6 dpi. The viral load was significantly higher in gilt serum, tracheobronchial lymph nodes, uterine lymph nodes, maternal endometrium, and fetal placenta of NV-I gilts compared to the V-I ones (p< 0.05). Moreover, the preservation status of the fetuses derived from NV-I gilts was significantly impaired (55.9% of viable fetuses) compared to the other groups (p< 0.001). Upon comparison with other known isolates, the phylogenetic analyses revealed the closest relation to a well-characterized PRRSV-1 subtype 1 field isolate from Belgium. In conclusion, the high virulence of AUT15-33 was phenotypically confirmed in an experimental reproductive model. The vaccination of the gilts showed promising results in reducing viremia, fetal damage, and transplacental transmission of the PRRSV-1 strain characterized in this study.

Keywords (en)

Respiratory Syndrome Virus; Mystery Swine Disease; Porcine Epidemic Abortion; Eastern-Europe; Pregnant Sows; Strains; Type-1; Pathogenicity; Emergence; Pathogenesis

DOI

10.3389/fvets.2022.820233

Author of the digital object

Heinrich Kreutzmann (University of Veterinary Medicine Vienna)

Andrea Ladinig (University of Veterinary Medicine Vienna)

Till Rümenapf (University of Veterinary Medicine Vienna)

Christiane Riedel (University of Veterinary Medicine Vienna)

Hann-Wei Chen (University of Veterinary Medicine Vienna)

Marianne Zaruba (University of Veterinary Medicine Vienna)

Gyula Balka (University of Veterinary Medicine Budapest)

Eleni Vatzia (University of Veterinary Medicine Vienna)

Yury Zablotski (Ludwig-Maximilians-University Munich)