Genomic characterization of pseudorabies virus strains isolated in Italy.

In this study, we undertook the genomic characterization of 54 pseudorabies virus (PRV) strains isolated in Italy during 1984-2010. The characterization was based on partial sequencing of the UL44 (gC) and US8 (gE) genes; 44 strains (38 for gene gE and 36 for gC) were isolated on pig farms; 9 originated from dogs and 1 from cattle. These porcine PRV strains, which were closely related to those isolated in Europe and America in the last 20 years, and the bovine strain bovine/It/2441/1992 belong to cluster B in both phylogenetic trees. Six porcine strains that do not belong to cluster B are related in both gE and gC phylogenetic trees to the 'old' porcine PRV strains isolated in the 1970s and 1980s. In the last two decades, the presence of these strains in domestic pig populations has been reduced drastically, whereas they are prevalent in wild boar. The two remaining strains have an interesting genomic profile, characterized by the gC gene being closely related to the old porcine PRV strains, and the gE gene being similar to that of recently isolated strains. Three strains originating from working dogs on pig farms are located in cluster B in both phylogenetic trees. Five strains isolated from hunting dogs have a high degree of correlation with PRV strains circulating in wild boar. The last isolate has a gC gene similar to that in the two porcine strains mentioned previously, and the gE gene is correlated with the strains isolated from hunting dogs. These results provide interesting insight into the genomic characterization of PRV strains and reveal a clear differentiation between the strains isolated from hunting dogs that are related to the wild boar strains and those originating from domestic pigs.

Identification of Mammalian orthoreovirus type 3 in Italian bats.

Summary This study describes the isolation and molecular characterization of Mammalian orthoreovirus (MRV) in microbats. Faecal samples and dead individuals available from rehabilitation centres or collected from known roost sites were virologically tested. In total, 112 carcasses of bats found dead, and 44 faecal samples were analysed. Nineteen viral strains were isolated by in vitro cell culture from faecal and tissue samples of different bat species (Pipistrellus khulii, Tadarida teniotis, Rhinolophus hipposideros and Vespertilio murinus), and they were morphologically identified as reoviruses by negative staining electron microscopy observation. The definitive assignment of all isolates to MRV was confirmed by RT-PCR assays targeting the L1 gene. Through a multiplex RT-PCR assay targeting the S1 gene, we typed 15 of 19 isolates as MRV type 3. Partial L1 (416 bp) and complete S1 (1416 bp) sequences of the isolates were analysed and compared with those of reference strains obtained from GenBank, belonging to the three serotypes. Molecular analysis of the S1 gene revealed that the amino acid residues associated with neurotropism (198-204NLAIRLP, 249I, 350D and 419E) were highly conserved among the Italian bat strains. These results suggest that potentially neurotropic MRV type 3 strains are widespread among Italian bats. Furthermore, the identification of MRV type 3 in bat species such as Pipistrellus Khulii, which is common in urban areas and known for its close contact with humans, underlines the need for vigilance.