Detection and genetic characterization of enteric viruses in diarrhoea outbreaks from swine farms in Spain

Coinfection with bacterial pathogens and genetic modification of PRRSV-2 for suppression of NF-κB and attenuation of proinflammatory responses

Porcine reproductive and respiratory syndrome virus (PRRSV) infects pulmonary alveolar macrophages and induces inflammation in the respiratory system. In swine farms, coinfection with PRRSV and bacterial pathogens is common and can result in clinically complicated outcomes, including porcine respiratory disease complex. Coinfection can cause excessive expressions of proinflammatory mediators and may lead to cytokine-storm-like syndrome. An immunological hallmark of PRRSV-2 is the bidirectional regulation of NF-κB with the nucleocapsid (N) protein identified as the NF-κB activator. We generated an NF-κB-silencing mutant PRRSV-2 by mutating the N gene to block its binding to PIAS1 [protein inhibitor of activated STAT-1 (signal transducer and activator of transcription 1)]. PIAS1 functions as an NF-κB repressor, and thus, the PIAS1-binding modified N-mutant PRRSV-2 became NF-κB activation-resistant in its phenotype. During coinfection of pigs with PRRSV-2 and Streptococcus suis, the N-mutant PRRSV-2 decreased the expression of proinflammatory cytokines and showed clinical attenuation. This review describes the coinfection of pigs with various pathogens, the generation of mutant PRRSV for NF-κB suppression, inflammatory profiles during bacterial coinfection, and the potential application of these findings to designing a new vaccine candidate for PRRSV-2.

Global prevalence of Porcine Astrovirus: A systematic review and meta-analysis

Porcine astrovirus (PAstV) is a widespread enteric virus in pigs, often co-infecting with other enteric viruses and contributing to diarrhea, leading to significant economic losses in the global swine industry. This study aims to identify the factors influencing PAstV prevalence by conducting a statistical meta-analysis of global data and evaluating heterogeneity across various subgroups. A systematic literature search was performed across PubMed, Web of Science, CNKI, Wanfang, and VIP databases, covering studies from the inception of the databases up to December 2023. A random-effects model was employed to estimate the global pooled prevalence of PAstV infection, and subgroup analyses were performed to evaluate the impact of different continents, years, detection methods, and sample types on the prevalence. Publication bias was assessed using a funnel plot and Egger's test. A total of 45 studies from 10 countries across three continents, involving 376 articles, were included in the meta-analysis. The global pooled prevalence of PAstV infection was found to be 28.19 % (95 % CI, 21.94 %-34.89 %). Subgroup analysis indicated significant differences in PAstV prevalence across continents, with Asia at 26.25 % (95 % CI, 25.41 %-27.09 %), Europe at 36.19 % (95 % CI, 34.09 %-38.33 %), and North America at 63.24 %. The prevalence of PAstV was highest between 2012 and 2014 (49.86 %, 95 % CI, 47.21 %-52.51 %), followed by a decreasing trend that stabilized below 30 % from 2015 to 2023. The analysis showed no significant influence of detection methods on PAstV prevalence. However, the prevalence in non-fecal samples (43.09 %, 95 % CI: 41.05 %-45.15 %) was significantly higher than in fecal samples (22.92 %, 95 % CI: 21.87 %-23.99 %). Additionally, the prevalence of PAstV in asymptomatic pigs (36.71 %, 95 % CI, 34.97 %-38.48 %) exceeded that in diarrheic pigs (28.18 %, 95 % CI, 26.94 %-29.44 %). Among different age groups, nursery pigs(6-10 weeks) exhibited the highest infection rate (63.19 %, 95 % CI, 58.45 %-67.75 %), followed by weaning pigs(3-6 weeks) (60.00 %, 95 % CI, 56.48 %-63.45 %), finisher pigs(>10 weeks) (49.89 %, 95 % CI, 46.59 %-53.19 %), sows (35.33 %, 95 % CI, 31.45 %-39.37 %), with suckling pigs(0-3 weeks) showing the lowest rate (31.93 %, 95 % CI, 30.23 %-33.68 %). This study highlights the widespread nature of PAstV infection in pig populations globally, with notable variations in prevalence across regions, years, and sample types. The high prevalence of asymptomatic infections underscores the need for enhanced PAstV surveillance and control measures.

A Quadruplex RT-qPCR for the Detection of Porcine Sapelovirus, Porcine Kobuvirus, Porcine Teschovirus, and Porcine Enterovirus G

Porcine sapelovirus (PSV), porcine kobuvirus (PKV), porcine teschovirus (PTV), and porcine enterovirus G (EV-G) are all important viruses in the swine industry. These viruses play important roles in the establishment of similar clinical signs of diseases in pigs, including diarrhea, encephalitis, and reproductive and respiratory disorders. The early accurate detection of these viruses is crucial for dealing with these diseases. In order for the differential detection of these four viruses, specific primers and TaqMan probes were designed for the conserved regions in the 5' untranslated region (UTR) of these four viruses, and one-step quadruplex reverse-transcription real-time quantitative PCR (RT-qPCR) for the detection of PSV, PKV, PTV, and EV-G was developed. The results showed that this assay had the advantages of high sensitivity, strong specificity, excellent repeatability, and simple operation. Probit regression analysis showed that the assay obtained low limits of detection (LODs) for PSV, PKV, PTV, and EV-G, with 146.02, 143.83, 141.92, and 139.79 copies/reaction, respectively. The assay showed a strong specificity of detecting only PSV, PKV, PTV, and EV-G, and had no cross-reactivity with other control viruses. The assay exhibited excellent repeatability of the intra-assay coefficient of variation (CV) of 0.28-1.58% and the inter-assay CV of 0.20-1.40%. Finally, the developed quadruplex RT-qPCR was used to detect 1823 fecal samples collected in Guangxi Province, China between January 2024 and December 2024. The results indicated that the positivity rates of PSV, PKV, PTV, and EV-G were 15.25% (278/1823), 21.72% (396/1823), 18.82% (343/1823), and 27.10% (494/1823), respectively, and there existed phenomena of mixed infections. Compared with the reference RT-qPCR/RT-PCR established for these four viruses, the coincidence rates for the detection results of PSV, PKV, PTV, and EV-G reached 99.51%, 99.40%, 99.51%, and 99.01%, respectively. In conclusions, the developed quadruplex RT-qPCR could simultaneously detect PSV, PKV, PTV, and EV-G, and provided an efficient and convenient detection method to monitor the epidemic status and variation of these viruses.

Molecular Characterization and Pathogenicity Analysis of Porcine Rotavirus A

Porcine rotavirus A (RVA) is one of the major etiological agents of diarrhea in piglets and constitutes a significant threat to the swine industry. A molecular epidemiological investigation was conducted on 2422 diarrhea samples from Chinese pig farms to enhance our understanding of the molecular epidemiology and evolutionary diversity of RVA. The findings revealed an average RVA positivity rate of 42% (943/2422), and the study included data from 26 provinces, primarily in the eastern, southern and southwestern regions. Genetic evolutionary analysis revealed that G9 was the predominant genotype among the G-type genotypes, accounting for 25.32% of the total. The VP4 genotypes were P[7] (36.49%) and P[23] (36.49%). The predominant genotypic combinations of RVA were G9P[23] and G9P[7]. Eleven RVA strains were obtained via MA104 cell isolation. A rat model was established to assess the pathogenicity of these strains, with three strains exhibiting high pathogenicity in the model. Specifically, the RVA Porcine CHN HUBEI 2022 (Q-1), RVA Porcine CHN SHANXI 2022 (3.14-E), and RVA Porcine CHN HUBEI 2022 (5.11-U) strains were shown to cause diarrhea in the rats and damage the intestinal villi during the proliferation phase of the infection, leading to characteristic lesions in the small intestine. These data indicate that continuous monitoring of RVA can provide essential data for the prevention and control of this virus.

Complete genome characterization by nanopore sequencing of rotaviruses A, B, and C circulating on large-scale pig farms in Russia

BACKGROUND

Rotaviruses are the major etiological agents of gastroenteritis and diarrheal outbreaks in plenty of mammalian species. The genus Rotavirus is highly diverse and currently comprises nine genetically distinct species, and four of them (A, B, C, and H) are common for humans and pigs. There is a strong necessity to comprehend phylogenetic relationships among rotaviruses from different host species to assess interspecies transmission, specifically between humans and livestock. To reveal the genetic origin of rotaviruses from Russian pig farms, nanopore-based metagenomic sequencing was performed on the PCR-positive specimens.

METHODS

Samples were selected among the cases submitted to routine diagnostic or monitoring studies to the Laboratory of Biochemistry and Molecular Biology of "Federal Scientific Center VIEV" (Moscow, Russia). The selected positive samples were genotyped using nanopore sequencing method.

RESULTS

Five porcine RVA isolates were completely sequenced, and genotype analysis revealed various porcine G/P genogroups: G2, G3, G4, G5, G11 and P[6], P[7], P[13], P[23], P[27] with a typical backbone constellation I5-R1-C1-M1-A8-N1-T1/7-E1-H1. The RVB isolate was detected in combination with RVA in a rectal swab from a diseased pig in Krasnoyarsk Krai. It was characterized by the following genogroups: G15-P[X]-I11-R4-C4-M4-A8-N10-T4-E4-H7. The first complete porcine RVC genome from Russia was obtained with genomic constellation G6-P[5]-I14-R1-C1-M1-A7-N9-T6-E1-H1, and the phylogenetic analysis revealed putative novel genotype group for the VP6 gene-I14. Additionally, the first porcine kobuvirus isolate from Russia was phylogenetically characterized.

CONCLUSIONS

The applied nanopore sequencing method successfully genotyped the RV isolates and additionally revealed co-circulated species. The study demonstrates high genetic variability of Russian RVA isolates in VP4/VP7 genes and phylogenetically describes local RVB and RVC. Complete characterization of genomic segments is a crucial methodology in tracing the rotavirus's evolution and evaluating interspecies transmissions.

Isolation and identification of a novel porcine-related recombinant mammalian orthoreovirus type 3 strain from cattle in Guangxi Province, China

The Mammalian orthoreovirus (MRV) infects various mammals, including humans, and is linked to gastrointestinal, respiratory, and neurological diseases. A recent outbreak in Liuzhou, Guangxi, China, led to the isolation of a new MRV strain, GXLZ2301, from fecal samples. This strain replicates in multiple cell lines and forms lattice-like structures. Infected cells exhibit single-cell death and syncytia formation. The virus's titers peaked at 107.2 TCID50/0.1 mL in PK-15 and BHK cells, with the lowest at 103.88 TCID50/0.1 mL in A549 cells. Electron microscopy showed no envelope with a diameter of about 70 nm. Genetic analysis revealed GXLZ2301 as a recombinant strain with gene segments from humans, cows, and pigs, similar to type 3 MRV strains from Italy (2015-2016). Pathogenicity tests indicated that while the bovine MRV strain did not cause clinical symptoms in mice, it caused significant damage to the gut, lungs, liver, kidneys, and brain. The emergence of this MRV strain may pose a threat to the health of animals and humans, and it is recommended that its epidemiology and recombination be closely monitored.

Developmental Dynamics of the Gut Virome in Tibetan Pigs at High Altitude: A Metagenomic Perspective across Age Groups

Tibetan pig is a geographically isolated pig breed that inhabits high-altitude areas of the Qinghai-Tibetan plateau. At present, there is limited research on viral diseases in Tibetan pigs. This study provides a novel metagenomic exploration of the gut virome in Tibetan pigs (altitude ≈ 3000 m) across three critical developmental stages, including lactation, nursery, and fattening. The composition of viral communities in the Tibetan pig intestine, with a dominant presence of Microviridae phages observed across all stages of development, in combination with the previous literature, suggest that it may be associated with geographical locations with high altitude. Functional annotation of viral operational taxonomic units (vOTUs) highlights that, among the constantly increasing vOTUs groups, the adaptability of viruses to environmental stressors such as salt and heat indicates an evolutionary response to high-altitude conditions. It shows that the lactation group has more abundant viral auxiliary metabolic genes (vAMGs) than the nursery and fattening groups. During the nursery and fattening stages, this leaves only DNMT1 at a high level. which may be a contributing factor in promoting gut health. The study found that viruses preferentially adopt lytic lifestyles at all three developmental stages. These findings not only elucidate the dynamic interplay between the gut virome and host development, offering novel insights into the virome ecology of Tibetan pigs and their adaptation to high-altitude environments, but also provide a theoretical basis for further studies on pig production and epidemic prevention under extreme environmental conditions.

Development of a multiplex reverse transcription-quantitative PCR (qPCR) method for detecting common causative agents of swine viral diarrhea in China

BACKGROUND

Diarrheal diseases caused by viral agents have led to a great morbidity, mortality, and economic loss in global pig industry. Porcine epidemic diarrhea virus (PEDV), transmissible gastroenteritis virus (TGEV), porcine deltacoronavirus (PDCoV), and group A porcine rotavirus (RVA) are main causative agents of swine viral diarrhea with similar clinical signs on Chinese farms and their co-infection is also common. However, it is still lack of a convenient method to detect these four agents.

METHODS

A TaqMan multiplex qPCR method was developed to detect PEDV, TGEV, PDCoV, and RVA, simultaneously. This method was then applied to investigate 7,342 swine fecal samples or rectal swabs, as well as 1,246 swine intestinal samples collected from 2075 farms in China in 2022.

RESULTS

Minimum detection limits of this method were 3 copies/µL for PEDV, 4 copies/µL for TGEV, 8 copies/µL for RVA, and 8 copies/µL for PDCoV, suggesting a good sensitivity. No signals were observed by using this method detecting other viral agents commonly prevalent in pigs, which is suggestive of a good specificity. Application of this method on investigating clinical samples demonstrated a relatively high positive rate for PEDV (22.21%, 1907/8588) and RVA (44.00%, 3779/8588). In addition, co-infection between PEDV and RVA was observed on 360 investigated farms, accounting for 17.35% (360/2075) of the farms where co-infection events were screened.

CONCLUSIONS

A TaqMan multiplex qPCR method targeting PEDV, TGEV, PDCoV, and RVA was developed in this study. This method demonstrated a good specificity and sensitivity on investigating these four common viruses responsible for viral diarrhea on Chinese pig farms, which represents a convenient method for the monitoring and differential diagnosis of swine viral diarrhea.

Differential transcriptome response following infection of porcine ileal enteroids with species A and C rotaviruses

BACKGROUND

Rotavirus C (RVC) is the major causative agent of acute gastroenteritis in suckling piglets, while most RVAs mostly affect weaned animals. Besides, while most RVA strains can be propagated in MA-104 and other continuous cell lines, attempts to isolate and culture RVC strains remain largely unsuccessful. The host factors associated with these unique RVC characteristics remain unknown.

METHODS

In this study, we have comparatively evaluated transcriptome responses of porcine ileal enteroids infected with RVC G1P[1] and two RVA strains (G9P[13] and G5P[7]) with a focus on innate immunity and virus-host receptor interactions.

RESULTS

The analysis of differentially expressed genes regulating antiviral immune response indicated that in contrast to RVA, RVC infection resulted in robust upregulation of expression of the genes encoding pattern recognition receptors including RIG1-like receptors and melanoma differentiation-associated gene-5. RVC infection was associated with a prominent upregulation of the most of glycosyltransferase-encoding genes except for the sialyltransferase-encoding genes which were downregulated similar to the effects observed for G9P[13].

CONCLUSIONS

Our results provide novel data highlighting the unique aspects of the RVC-associated host cellular signalling and suggest that increased upregulation of the key antiviral factors maybe one of the mechanisms responsible for RVC age-specific characteristics and its inability to replicate in most cell cultures.