Efficacy of a modified-live virus vaccine in pigs experimentally infected with a highly pathogenic porcine reproductive and respiratory syndrome virus type 1 (HP-PRRSV-1).

PRRS is one of the main viral diseases in pig production, causing huge economic losses to the swine industry worldwide. The virus shows an intrinsic genomic instability and is able to change continuously, with the emergence of new strains, with different pathogenicity patterns. Commercially available vaccines only partially prevent or counteract the disease and the correlated losses. Moreover, the emergence of highly virulent and pathogenetic isolates represents a particular concern for PRRS control and diagnosis. The purpose of this study was to evaluate the efficacy of a modified-live virus (MLV) PRRSV-1 commercial vaccine in reducing the severity of the disease and minimizing losses upon challenge with a highly pathogenic PRRSV-1.1 Italian isolate (PRRSV-1_PR40/2014). Four different groups were compared: C (unvaccinated-uninfected), VAC-C (vaccinated-uninfected), PR40 (unvaccinated-infected) and VAC-PR40 (vaccinated-infected). The tested vaccine provided partial, but statistically significant clinical, virological and pathological protection after challenge under experimental conditions. In particular, vaccinated animals showed reduced viremia in terms of duration and magnitude, reduced respiratory signs and pathological lesions. Vaccination was able to trigger adaptive immunity able to respond efficiently also against the HP PR40 isolate. Vaccinated animals showed higher average daily weight gain, even during the viremic period, compared to non-vaccinated challenged pigs.

A highly pathogenic porcine reproductive and respiratory syndrome virus type 1 (PRRSV-1) strongly modulates cellular innate and adaptive immune subsets upon experimental infection.

Highly pathogenic (HP) PRRSV isolates have been discovered within both PRRSV-1 and PRRSV-2 genotypes and investigated in recent years especially for their ability to cause extremely severe disease in conventional pig herds. The exacerbation of general and respiratory clinical signs has been attributed not only to an efficient replication (virulence) but also to the ability to dysregulate viral recognition and induce mechanisms of immune evasion or immune enhancement of humoral and cellular anti-viral responses differently from non-HP PRRSV isolates in terms of intensity and temporal onset. Thus, the understanding of the immunopathogenesis of HP PRRSV is a major concern for the study of virus biology and development of efficacious vaccines. The present study aims at addressing the modulation of relevant immune cell subsets by flow cytometry in the blood of 4-week-old pigs experimentally infected with the recently discovered PR40/2014 HP PRRSV-1.1 strain phenotypically characterized in Canelli et al. (2017) compared to pigs infected with a non-HP PRRSV isolate (PR11/2014) and uninfected controls. PR40 infected animals showed an early and marked reduction of pro-inflammatory CD172α+ CD14+CD16+ and CD14+CD163+ monocytes and TCRγδ+CD8α+/CD8α- lymphocytes when pigs were most infected, possibly due to a recruitment sustaining an acute inflammatory response in target tissues. The prolonged increased CD3+CD16+ NKT cell levels may sustain peripheral inflammation and/or the anti-viral response. The late reduction (potential depletion) of γ/δ T lymphocytes and CD3+CD4+CD8α- naïve Th lymphocytes paralleled with the delayed increase of CD3+CD4+CD8α+ memory and CD3+CD4-CD8α/ß + cytotoxic T lymphocytes. In addition, PR40 infection showed an early depletion of activated CD4+CD25+ T lymphocytes and Tregs together with an intense and lasting depletion of CD21+ B lymphocytes. Overall, these features demonstrate that the more severe clinical signs observed upon infection with the HP PR40 strain are sustained by remarkable changes in the peripheral blood distribution of immune cells and provide further insights into the immune regulation/immunopathogenesis induced by PRRSV-1 subtype 1 European isolates.

Phenotypic characterization of a highly pathogenic Italian porcine reproductive and respiratory syndrome virus (PRRSV) type 1 subtype 1 isolate in experimentally infected pigs.

Highly pathogenic (HP) isolates of the PRRS virus started emerging in North America and Asia in the late 1990s. More recently, they have emerged in Europe. These isolates are characterized by high viral loads, severe general clinical signs and high mortality, in sows, weaners and growers. Their genome shows a discontinuous aminoacids deletion in the non-structural protein 2 (NSP2). The present study was aimed at characterizing the clinical, pathological and immunological features of a highly pathogenetic, Italian PRRSV-1 subtype 1 isolate (PRRSV1_PR40/2014), following experimental infection in conventional 4-weeks-old pigs. The PRRSV1_PR40/2014 infected group showed severe clinical signs (high fever and dispnoea). Pathological lesions, including severe lymphocytopenia in bronchial lymph-nodes and thymus were also recorded. Higher serum PRRSV genome copies and lower virus neutralizing antibody titer were observed in the PR40 group, when compared to the group infected with a conventional PRRSV strain. The genetic analysis of the strain, and the phenotypic features observed in the field and reproduced in the experimental study, confirmed the high pathogenicity of the Italian PRRSV-1 subtype 1 PR40 isolate.

Phenotypic modulation of porcine CD14+ monocytes, natural killer/natural killer T cells and CD8αß+ T cell subsets by an antibody-derived killer peptide (KP).

An engineered killer peptide (KP) based on a recombinant anti-idiotypic antibody representing the functional image of a yeast killer toxin (KT) was demonstrated to mediate antimicrobial effects against fungi and viruses. KP binds to murine dendritic cells and macrophages and up-regulate co-receptor expression, thus sustaining CD4+ lymphocyte activation. No immunological data are available in domestic animals thus KP-induced immunomodulation was evaluated in porcine monocyte and lymphocyte subsets. PBMC from healthy adult pigs were stimulated with KP or a scramble peptide (SP), or kept unstimulated for 24, 48 and 72h, and subsequently analyzed by flow cytometry. In monocytes, KP induced a strong dose-dependent shift from a major fraction of CD172α+CD14+low cells to a predominant fraction of CD172α+CD14+high cells, known to sustain leukocyte activation/differentiation and inflammatory responses. The CD16+ cell percentages, specifically the CD3+CD16+ natural killer T (NKT) cell fraction and CD16 expression showed an intense and stable dose-dependent increase while the CD3-CD16+ NK cell fraction decreased. CD4+ and CD8+ T cells increased and CD8α and CD8ß expression were up-regulated. CD8ß+ cytotoxic T cells and CD16+ cells comparably increased. A marked stimulation of activated CD16+CD25+ and CD8ß+CD25+ cells was observed at 24h. The increase of CD8α+ cells and CD8α expression were due to increased CD4+CD8α+ (memory T helper) cells, also showing a CD8α+high phenotype. Concomitantly, the CD4+CD8α- T helper lymphocyte fraction significantly decreased. Overall, KP induced a wide modulation of innate immune and T cells that can exert regulatory and cytotoxic functions, which are fundamental for an efficient Th1 response.

Immunoregulatory signal FoxP3, cytokine gene expression and IFN-γ cell responsiveness upon porcine reproductive and respiratory syndrome virus (PRRSV) natural infection.

The study aims at evaluating gene expression of pro-inflammatory (IL-1ß, IL-8, TNF-α), pro-immune (IFN-γ), anti-inflammatory (IL-10) cytokines and of the immunoregulatory signal FoxP3 in association with PRRSV-specific IFN-γ secreting cell (SC) responsiveness upon PRRSV natural infection. Forty PRRSV-negative pigs were assigned to two groups: 20 pigs were vaccinated at 3 weeks of age (weaning) against PRRSV (V-PRRSV) with a modified live virus vaccine (MLV) and 20 pigs were kept non-vaccinated (NV) as controls. Blood samples were collected at 3 (vaccination), 6, 8, 10, 12, 14, and 16 weeks of age. Natural infection occurred from 8 weeks of age onward in both groups and viremia lasted 8 weeks. In the early phase of infection, pro-inflammatory cytokines (IL-1ß, IL-8, TNF-α) showed a delayed increase concomitant with the peak of viremia in both groups. In both groups, IL-10 peaked at 12 weeks in association with the increase of pro-inflammatory cytokines. Conversely, in vaccinated pigs (V-PRRSV), IFN-γ showed higher gene expression during the early phase of infection and a more intense secreting cell (SC) response in the late phase. Differently, gene expression of the transcription factor FoxP3, expressed by T regulatory lymphocytes (Tregs), increased significantly in controls only and was associated with the rise of the viral load. Moreover, FoxP3 levels remained significantly higher during the late phase of infection and paralleled with lower levels of IFN-γ SC detected by ELISPOT. The expression/production of immunoregulatory signals involved in Treg activation could be a promising marker to study the immunobiology of PRRSV infection.

Astroviruses as causative agents of poultry enteritis: genetic characterization and longitudinal studies on field conditions.

Astroviruses (AstVs) are nonenveloped RNA small round viruses (SRVs) with a genome of 6.8-7.9 kb. Known avian AstVs are spread worldwide; they have been associated with poult enteritis and mortality syndrome in the United States and reported in Italy in intensive turkey and guinea fowl flocks. Nevertheless, their real prevalence and their pathogenic role in avian enteritis affecting Italian flocks is far from clear. Negative staining electron microscopy (nsEM) is used for the routine diagnosis of avian enteric SRVs, although it cannot distinguish morphologically similar particles. Enzyme-linked immunosorbent assay (ELISA), reverse-transcription PCR (RT-PCR), and genomic sequencing are now used for this specific purpose. We analyzed 329 samples of chicken, turkey, and guinea fowl intestinal contents from Italian poultry flocks. Most samples were from enteritis outbreaks, but we also included samples from three longitudinal studies (one on 11 broiler flocks and the other two on a guinea fowl flock). We first examined the samples with nsEM. SRVs, including AstVs, are often associated with rotaviruses and were the most commonly detected morphotypes in avian enteric diseases. We then analyzed 124 of the samples with an RT-PCR targeting the open reading frame (ORF)-1b of AstV. This gene codes for an RNA-dependent polymerase. We then sequenced and genetically analyzed the RT-PCR positive samples. Phylogenetic analysis distinguished three defined clusters: the first included guinea fowl AstVs and turkey AstVs-2; the second, chicken AstVs; and the third was formed by avian nephritis viruses (ANVs). No strains clustered with turkey AstVs-1. The results indicate that ORF-1b presents certain genetic variability, even among AstVs from the same species. In longitudinal studies, samples retrieved from the same shed were homogeneous, with some exceptions suggesting possible coexistence of different genetic types in the same unit. The finding of ANV-like viruses in commercial guinea fowls underlines the genetic variability of AstVs and strengthens the hypothesis of a varied intraherd situation.