An entero-like virus associated with the runting syndrome in broiler chickens

Arrest of Cell Cycle by Avian Reovirus p17 through Its Interaction with Bub3

Avian reoviruses (ARV) are a group of poultry pathogens that cause runting and stunting syndrome (RSS), a condition otherwise known as "frozen chicken", which are characterized by dramatically delayed growth in broilers. It has been known that p17, a nonstructural protein encoded by ARV, prohibits cellular proliferation by halting the cell cycle at the G2/M phase, the result of which is directly associated with the typical clinical sign of RSS. Nevertheless, the mechanism by which p17 modulates cell-cycle progression remains largely unknown. Here, we screened the interactome of ectopically expressed p17 through a yeast two-hybrid assay and identified Bub3, a cellular mitotic checkpoint protein, as a binding partner of p17. The infection of the Vero cells by ARV downregulated the Bub3 expression, while the knockdown of Bub3 alleviated the p17-modulated cell-cycle arrest during ARV infection. Remarkably, the suppression of Bub3 by RNAi in the Vero cells significantly reduced the viral mRNA and protein abundance, which eventually led to diminished virus replication. Altogether, our findings reveal that ARV p17 impedes host cell proliferation through a Bub3-dependent cell-cycle arrest, which eventually contributes to efficient virus replication. These results also unveil a hitherto unknown therapeutic target for RSS.

Transcriptome Sequencing of the Spleen Reveals Antiviral Response Genes in Chickens Infected with CAstV

Astrovirus infections pose a significant problem in the poultry industry, leading to multiple adverse effects such as a decreased egg production, breeding disorders, poor weight gain, and even increased mortality. The commonly observed chicken astrovirus (CAstV) was recently reported to be responsible for the "white chicks syndrome" associated with an increased embryo/chick mortality. CAstV-mediated pathogenesis in chickens occurs due to complex interactions between the infectious pathogen and the immune system. Many aspects of CAstV-chicken interactions remain unclear, and there is no information available regarding possible changes in gene expression in the chicken spleen in response to CAstV infection. We aim to investigate changes in gene expression triggered by CAstV infection. Ten 21-day-old SPF White Leghorn chickens were divided into two groups of five birds each. One group was inoculated with CAstV, and the other used as the negative control. At 4 days post infection, spleen samples were collected and immediately frozen at -70 °C for RNA isolation. We analyzed the isolated RNA, using RNA-seq to generate transcriptional profiles of the chickens' spleens and identify differentially expressed genes (DEGs). The RNA-seq findings were verified by quantitative reverse-transcription PCR (qRT-PCR). A total of 31,959 genes was identified in response to CAstV infection. Eventually, 45 DEGs (p-value < 0.05; log2 fold change > 1) were recognized in the spleen after CAstV infection (26 upregulated DEGs and 19 downregulated DEGs). qRT-PCR performed on four genes (IFIT5, OASL, RASD1, and DDX60) confirmed the RNA-seq results. The most differentially expressed genes encode putative IFN-induced CAstV restriction factors. Most DEGs were associated with the RIG-I-like signaling pathway or more generally with an innate antiviral response (upregulated: BLEC3, CMPK2, IFIT5, OASL, DDX60, and IFI6; downregulated: SPIK5, SELENOP, HSPA2, TMEM158, RASD1, and YWHAB). The study provides a global analysis of host transcriptional changes that occur during CAstV infection in vivo and proves that, in the spleen, CAstV infection in chickens predominantly affects the cell cycle and immune signaling.

The First Whole Genome Sequence and Characterisation of Avian Nephritis Virus Genotype 3

Avian nephritis virus (ANV) is classified in the Avastroviridae family with disease associations with nephritis, uneven flock growth and runting stunting syndrome (RSS) in chicken and turkey flocks, and other avian species. The whole genome of ANV genotype 3 (ANV-3) of 6959 nucleotides including the untranslated 5′ and 3′ regions and polyadenylated tail was detected in a metagenomic virome investigation of RSS-affected chicken broiler flocks. This report characterises the ANV-3 genome, identifying partially overlapping open reading frames (ORFs), ORF1a and ORF1b, and an opposing secondary pseudoknot prior to a ribosomal frameshift stemloop structure, with a separate ORF2, whilst observing conserved astrovirus motifs. Phylogenetic analysis of the Avastroviridae whole genome and ORF2 capsid polyprotein classified the first complete whole genome of ANV-3 within Avastroviridae genogroup 2.

Virus-induced immunosuppression in turkeys (Meleagris gallopavo): A review

Immunosuppression is characterized by a dysfunction of humoral and/or cellular immune response leading to increase of susceptibility to secondary infections, increase of mortality and morbidity, poor productivity, and welfare and vaccination failures. Humoral immune response depression is due to perturbation of soluble factors, as complement and chemokines in innate immunity and antibodies or cytokines in adaptive immunity. At the cellular immune response, immunosuppression is the consequence of the dysfunction of T-cells, B-cells, heterophils, monocytes, macrophages, and natural Killer cells. Immunosuppression in turkeys can be caused by numerous, non-infectious, and infectious agents, having variable pathological and molecular mechanisms. Interactions between them are very complex. This paper reviews the common viruses inducing clinical and sub-clinical immunosuppression in turkeys, and enteric and neoplastic viruses in particular, as well as the interactions among them. The evaluation of immunosuppression is currently based on classical approach; however, new technique such as the microarray technology is being developed to investigate immunological mediator’s genes detection. Controlling of immunosuppression include, in general, biosecurity practices, maintaining appropriate breeding conditions and vaccination of breeders and their progeny. Nevertheless, few vaccines are available against immunosuppressive viruses in turkey’s industry. The development of new control strategies is reviewed.

Turkey Astrovirus Type 1 (TAstV-1) and Chicken Astrovirus (CAstV) Detection in Brazilian Chicken Flocks

Astrovirus is a common cause of enteritis in humans and domestic animals. Here we report the detection of turkey astrovirus type 1 (TAstV-1) and chicken astrovirus (CAstV) in avian farms. Sixty fecal sample pools (five or six birds of the same flock), from chickens without apparent clinical symptoms of enteric disease from farms located in six Brazilian states, were screened by an ORF1b PCR, followed by nucleotide sequencing of amplified products and phylogenetic analysis. Six samples tested positive for TAstV-1 and two for CAstV. One positive sample of each detected virus (TAstV-1 and CAstV) had the complete ORF2 sequenced. Data for the ORF2 sequence indicate that Brazilian TAstV-1 was divergent from TAstV-1 (United States), previously described infecting turkeys, and Brazilian CAstV clustered together with the U.K. group, subgroup B-II, associated with enteritis and growth retardation in chicks. This study provides updated information about CAstV and the first report of detection of TAstV-1 in Brazilian chickens, supporting the diagnostic of enteritis and epidemiologic surveillance in poultry health.

Astrovirus-induced "white chicks" condition - field observation, virus detection and preliminary characterization

Chicken astrovirus (CAstV) was recently indicated as the factor of the "white chicks" condition associated not only with increased embryo/chick mortality but also with weakness and white plumage of hatched chicks. In February 2014, organ samples (livers and kidneys) from dead-in-shell embryos, as well as 1-day-old whitish and normal chicks, were delivered from one hatchery in Poland for disease diagnosis. The samples originated from the same 30-week-old breeder flock in which the only observed abnormal signs were 4-5% decrease in the number of hatched chickens and the presence (about 1%) of weaker chicks with characteristic whitish plumage among normal ones. CAstV was detected in submitted samples and was then isolated in 10-day-old embryonated specific pathogen free (SPF) chicken eggs. We also reproduced an infection model for the "white chicks" condition in SPF layer chickens using the isolated PL/G059/2014 strain as the infectious agent. Results of experimental reproduction of the "white chicks" condition were somewhat more serious than field observation. The administration of the CAstV material into the yolk sac of 8-day-old SPF chicken eggs caused delay and prolongation of hatching, as well as death of embryos/chicks, and also a change of plumage pigmentation. Only two chicks of a total of 10 inoculated SPF eggs survived and were observed for 2 months. A gradual elimination of the CAstV genome was noted in this period. Moreover, a few contact-naive SPF chicks, which had been placed in the same cage, were infected with CAstV. Molecular characterization of detected CAstV was performed by nucleotide sequencing of the full ORF2 region encoding the capsid precursor protein gene. Phylogenetic studies showed that the PL/G059/2014 isolate clustered in the subgroup Aiii of CAstV. In the light of the new classification rules, the Polish PL/G059/2014 CAstV isolate could be assigned to a new species of the Avastrovirus genus.

Porcine Rotaviruses: Epidemiology, Immune Responses and Control Strategies

Rotaviruses (RVs) are a major cause of acute viral gastroenteritis in young animals and children worldwide. Immunocompetent adults of different species become resistant to clinical disease due to post-infection immunity, immune system maturation and gut physiological changes. Of the 9 RV genogroups (A–I), RV A, B, and C (RVA, RVB, and RVC, respectively) are associated with diarrhea in piglets. Although discovered decades ago, porcine genogroup E RVs (RVE) are uncommon and their pathogenesis is not studied well. The presence of porcine RV H (RVH), a newly defined distinct genogroup, was recently confirmed in diarrheic pigs in Japan, Brazil, and the US. The complex epidemiology, pathogenicity and high genetic diversity of porcine RVAs are widely recognized and well-studied. More recent data show a significant genetic diversity based on the VP7 gene analysis of RVB and C strains in pigs. In this review, we will summarize previous and recent research to provide insights on historic and current prevalence and genetic diversity of porcine RVs in different geographic regions and production systems. We will also provide a brief overview of immune responses to porcine RVs, available control strategies and zoonotic potential of different RV genotypes. An improved understanding of the above parameters may lead to the development of more optimal strategies to manage RV diarrheal disease in swine and humans.

A metagenomic comparison of endemic viruses from broiler chickens with runting-stunting syndrome and from normal birds

Runting-stunting syndrome (RSS) in broiler chickens is an enteric disease that causes significant economic losses to poultry producers worldwide due to elevated feed conversion ratios, decreased body weight during growth, and excessive culling. Of specific interest are the viral agents associated with RSS which have been difficult to fully characterize to date. Past research into the aetiology of RSS has implicated a wide variety of RNA and DNA viruses however, to date, no individual virus has been identified as the main agent of RSS and the current opinion is that it may be caused by a community of viruses, collectively known as the virome. This paper attempts to characterize the viral pathogens associated with 2–3-week-old RSS-affected and unaffected broiler chickens using next-generation sequencing and comparative metagenomics. Analysis of the viromes identified a total of 20 DNA and RNA viral families, along with 2 unidentified categories, comprised of 31 distinct viral genera and 7 unclassified genera. The most abundant viral families identified in this study were the Astroviridae, Caliciviridae, Picornaviridae, Parvoviridae, Coronaviridae, Siphoviridae, and Myoviridae. This study has identified historically significant viruses associated with the disease such as chicken astrovirus, avian nephritis virus, chicken parvovirus, and chicken calicivirus along with relatively novel viruses such as chicken megrivirus and sicinivirus 1 and will help expand the knowledge related to enteric disease in broiler chickens, provide insights into the viral constituents of a healthy avian gut, and identify a variety of enteric viruses and viral communities appropriate for further study.

Role of chicken astrovirus as a causative agent of gout in commercial broilers in India

Several outbreaks of gout were reported in commercial broilers in India during 2011 and 2012, causing up to 40% mortality in the birds. Gross and histopathological observations confirmed gout. Quantitative reverse transcriptase polymerase chain reaction (qRT-PCR) analysis from kidney samples of gout-affected birds indicated the presence of chicken astrovirus (CAstV) in 41.7% of cases and a mixed infection of CAstV and avian nephritis virus (ANV) in 36.4% of cases. CAstV isolated from gout-affected kidneys by inoculating embryonated specific pathogen free (SPF) eggs showed dwarfing in embryos and a cytopathic effect in chicken embryo kidney cells. Inoculation of 1-day-old SPF and broiler chicks with CAstVs caused gout and mortality between 4 and 10 days post inoculation. Virus isolation and qRT-PCR analysis showed the presence of only CAstV in inoculated chicks. Sequence analysis of capsid genes indicated a major group of Indian CAstVs that displayed 92.0 to 99.2% intergroup amino acid identity and 83.9 to 90.4% identity with subgroup Bi CAstVs of UK origin. We designated this group Indian Bi. Analysis of the partial polymerase amino acid sequences of our isolates indicated two groups of CAstVs (Indian 1 and 2) that displayed 90.2 to 95.5% amino acid identity between them. We thus report for the first time that, in addition to infectious bronchitis virus and ANV, CAstVs are a causative agent of gout.

Investigation into the aetiology of runting and stunting syndrome in chickens

Currently, the aetiology of runting and stunting syndrome (RSS) in chickens is unknown. The impact of RSS on weight gain and microscopic lesions in immunological organs and the duodenum, was investigated in 1-day-old commercial broilers at 12 days following exposure to RSS-contaminated litter. Furthermore, the presence of the viral nucleic acids of three astroviruses and one parvovirus was analysed by in situ hybridization from days 1 through 5 post exposure. A 70% decrease in weight was observed in the RSS-exposed group at the end of the experiments when compared with the unexposed controls. Lesions in the bursa of Fabricius and thymus were present in both groups but were significantly higher at the end of the study in the RSS-exposed group. In contrast, no significant difference in Harderian gland lesions was observed between the groups. Histological lesions in the duodenum were already present 24 h after exposure in the RSS-exposed group only, peaked at day 4 and declined until the end of the study. Results of the in situ hybridization studies clearly indicate replication of three astroviruses (chicken astrovirus, avian nephritis virus [ANV]-1, ANV-2) in the duodenum but not in other organs evaluated. Chicken astrovirus nucleic acids were detected on days 1 and 2 post exposure, while ANV-1 and ANV-2 nucleic acids were observed on several days during the period investigated. Surprisingly, no viral nucleic acid specific for the chicken parvovirus was observed. The results indicate that astroviruses probably play an important role during RSS due to the concurrence of viral RNA detection and lesions in the duodenum.

Capsid protein sequence diversity of avian nephritis virus

The capsid gene sequences of 25 avian nephritis viruses (ANVs), collected in the UK, Germany and Belgium from the 1980s to 2008, were determined and compared with those of serotype 1 (ANV-1) and serotype 2 (ANV-2) ANV isolates. Amino acid identities as low as 51% were determined. Pairwise comparisons supported by phylogenetic analysis identified six ANVs, including ANV-1 and ANV-2, which shared<80% amino acid identities with one another, and which were selected to be representative of six groups. The ANVs were not distributed according to geographical location or year of sampling, and the detection of ANVs from five different groups in 11 samples sourced from six flocks belonging to the same UK organization within a 4-month period indicated that sequence-diverse ANVs were co-circulating. Amino acid alignments demonstrated the existence of variable regions throughout the capsid protein, nine of which were selected for detailed comparisons. With most ANVs, the variable region sequences were similar to those of one of the six representative ANVs, but some ANV capsids displayed novel variable region profiles, in which variable regions that were characteristic of more than one representative ANV were present. Phylogenetic analysis based on C-terminal sequences of approximately 260 amino acids and SimPlot analysis provided evidence that RNA recombination events located in the 1250 to 1350 nucleotide region resulted in new combinations of the N-terminal and C-terminal capsid regions. The high level of capsid sequence diversity observed in the present study has important implications for both the control and diagnosis of ANV infections.

Complete sequence and genetic characterization of pigeon avian nephritis virus, a member of the family Astroviridae

In the current study, the complete genome sequence of a member of the family Astroviridae isolated from pigeons was determined through genetic characterization and phylogeny analysis. The isolated genome sequence was proposed to be that of pigeon avian nephritis virus (ANV), whose genome structure and characteristics were similar to previously reported avian astroviruses. The sequenced ssRNA genome comprises 6928 nucleotides, excluding the poly(A) tail, and contains three open reading frames. Phylogenetic analysis using a partial nucleotide sequence of the polymerase gene and the entire amino acid sequence of the full-length capsid protein revealed that pigeon avian nephritis virus is closely related to the previously published ANV, especially to the Japanese G-4260 and Chinese strains. This investigation provides information on the sequence and genetic characteristics of this virus and contributes to a better understanding of pigeon ANV and the possible occurrence of astrovirus transmission between chickens and pigeons.

Development and evaluation of real-time TaqMan® RT-PCR assays for the detection of avian nephritis virus and chicken astrovirus in chickens

The development and preliminary evaluations of two TaqMan®-based, real-time reverse transcriptase-polymerase chain reaction (rRT-PCR) assays for the quantitative detection of avian nephritis virus (ANV) and chicken astrovirus (CAstV) RNAs are described. The assays used amplicons generated from the 3' untranslated region of the ANV genome and a conserved region of CAstV open reading frame 1b including its junction with open reading frame 2. High virus RNA levels (>10(5.99) viral copies) were detected for ANV and CAstV in 81% and 67% gut content samples from growth-retarded broiler flocks. Results from longitudinal surveys of two broiler flocks showed that ANV and CAstV RNAs were detected in most gut content and kidney samples collected at all time points from day 0 to day 35, with RNA levels of both astroviruses being higher in the gut contents than in the kidneys, and with the ANV RNA levels being greater than those of CAstV especially at early (days 7 and 14) time points. When the results obtained for the days 4/5 time-point samples from four broiler flocks with varying growth performances were compared, the two better-performing flocks had 100-fold to 1000-fold less ANV viral copies than the flocks that performed least well. Application of the rRT-PCR tests to samples collected from broiler chicks, which were experimentally infected with a crude gut content inoculum, demonstrated that ANV RNA could be detected in gut content and kidney samples at levels similar to those found at corresponding time points in longitudinal survey samples, whereas CAstV RNA was detected at lower levels than in the longitudinal survey samples, especially in kidney samples.

Development and application of an RT-PCR test for detecting avian nephritis virus

The development of a reverse transcriptase-polymerase chain reaction (RT-PCR) test for detecting avian nephritis virus (ANV) is described. Primers, which amplified a fragment of 182 base pairs (bp), were located in the conserved 3' untranslated region (UTR) of the genome. The limit of detection of the test was estimated to be approximately 18 viral copies using a 10-fold dilution series of in vitro transcribed RNA. Positive signals were produced with representative ANV samples, some of which were not detected by previously described RT-PCR tests for detecting ANV, but other avian astroviruses including chicken astrovirus isolates and duck hepatitis virus types 2 and 3 tested negative. When applied to gut content samples from UK, German and US broiler flocks with enteritis/growth problems, ANVs were detected by RT-PCR in 82/82 (100%) samples. ANVs were also detected in 80/96 (83%) pooled gut content samples from longitudinal surveys of four broiler flocks displaying below-average performance. Whereas all samples collected on day 0 from the surveys were negative for ANV, all samples collected at days 4/5, 7, 10, 14, 21 and 28 tested positive. Sequence determinations performed with amplicons produced with 14 field samples confirmed the ANV specificity of the test, while comparative and phylogenetic analyses based on 109-nucleotide 3'-UTR sequences demonstrated that the majority of ANVs investigated were more closely related to the serotype 2 ANV (accession number AB 046864) than to the serotype 1 ANV (accession number NC 003790).

Detection of chicken astrovirus by reverse transcriptase-polymerase chain reaction

The development of a reverse transcriptase-polymerase chain reaction (RT-PCR) test for detecting chicken astroviruses (CAstV) is described. Primers, which amplified a fragment of 510 base pairs, were located in conserved regions within the ORF 1b (RNA polymerase) gene. The limit of detection of the test was estimated to be approximately 60 viral copies using a 10-fold dilution series of in vitro transcribed RNA. Positive signals were produced with representative CAstV samples, some of which were not detected by a previously described RT-PCR test for detecting CAstV, but other avian astroviruses including avian nephritis virus and duck hepatitis virus types 2 and 3 tested negative. When applied to gut content samples and swabs from UK and German broiler flocks with growth problems, CAstVs were detected by RT-PCR in 50/52 (96%) samples. CAstVs were detected in between 30% and 72.5% pooled gut content samples from longitudinal surveys of four broiler flocks displaying below-average performances. Whereas all day 0 samples were CAstV-negative, high detection rates were observed when the surveyed birds were aged 4, 5 and 7 days. Based on partial ORF 1b sequences, a phylogenetic analysis of 20 CAstVs indicated the existence of two groups. One group comprised four CAstV isolates, including FP3 and 11672, and two field CAstVs, which shared >94% nucleotide identity. The remaining 14 CAstVs, comprising the first characterized CAstV and 612 isolates and 12 field CAstVs, shared 85% to 99% nucleotide identity and displayed 76% to 79% nucleotide identity with the 11672-like and FP3-like CAstVs.

A purified recombinant baculovirus expressed capsid protein of a new astrovirus provides partial protection to runting-stunting syndrome in chickens

A new viral sequence likely belonging to a virus of the family Astroviridae was determined using the gut content of chickens affected with the runting-stunting syndrome (RSS) in chickens. Since the appropriate virus could not be isolated in cell culture the open reading frame of the viral capsid protein was cloned to generate a recombinant baculovirus. The protein was purified and used as an experimental vaccine in broiler breeders to provide maternal derived antibodies for the protection of the offspring. The presence of specific antibodies was monitored by an ELISA. The offspring of vaccinated breeder hens were partially protected in a RSS challenge model.

Epidemiological study of enteric viruses in broiler chickens: comparison of tissue culture and direct electron microscopy

The intestinal and caecal contents of chickens from 102 broiler flocks affected by enteric and associated problems were analysed. The second week of life was found to be the most important in the onset of clinical signs of malabsorption shown by the presence of uneven flocks, growth retardation and enteritis problems, but one-week-old flocks frequently presented similar problems. Some cases of feather aberration were observed, mainly in flocks of two weeks of age. From the third week, enteric problems were less acute. Viral particles were found in 67% of the samples by examination by electron microscope and in 52% by cell culture isolation. By complementing the two methods the viral recovery was increased to 85% of the samples. Four virus types were identified: reovirus, entero-like virus, rotavirus and adenovirus. Entero-like virus was mainly found in the first two weeks of life, whilst reovirus and rotavirus were principally found from the second week on. Adenovirus was found infrequently but this may have been a reflection of the mean age of the affected flocks which was only 12 days.

Significance of parvoviruses, entero-like viruses and reoviruses in the aetiology of the chicken malabsorption syndrome

Specific-pathogen-free White Leghorn chickens and commercial broilers were inoculated orally at 1 day of age with different intestinal preparations containing a chicken parvovirus, an entero-like virus associated with a reovirus from field materials, or the entero-like viruses and reovirus alone. Despite viral multiplication in inoculated birds, no clinical signs or growth retardation were observed in SPF and broiler chickens infected with the reo or parvoviruses. Abnormal faeces and reduction in weight gains were observed after infection with the field materials and the entero-like viruses. Some easily sedimentable particles could be involved with the entero-like virus in the aetiology of runting syndrome. Proventriculitis was present in chickens inoculated with one of the field materials and with the entero-like virus isolated from that material. Specific-pathogen-free White Leghorn chickens were as susceptible as commercial broiler chickens to weight gain depression after oral inoculation with crude homogenates at 1 day of age.

Isolation of non-cytopathic viruses implicated in the aetiology of nephritis and baby chick nephropathy and serologically related to avian nephritis virus

Three embryo-lethal agents were isolated from broiler chickens having either stunting syndrome or baby chick nephropathy. The agents replicated at low levels in chick kidney cells, but a cytopathic effect was not seen. Their presence was detected by embryo mortalities after yolk sac inoculations. All three agents caused nephritis and growth suppression when inoculated into 1-day-old chicks, and one agent caused increased incidence of baby chick nephropathy. This, and one other agent, were serologically closely related to avian nephritis virus G-4260. Picornavirus-like particles were present in the kidneys of infected birds. The histopathology of baby chick nephropathy was similar to, although more severe than, the nephritis seen in clinically normal birds. The strain of birds used to produce chick kidney cells influenced the ability of G-4260 to form a cytopathic effect and plaques. Strain of bird also influenced the lesions produced on chorio-allantoic membranes after inoculation of G-4260 and the above isolates.

Isolation and characterisation of cytopathic avian enteroviruses from broiler chicks

Cytopathic viruses were isolated from the faeces, pancreas and caecal contents of broiler chicks in two cases of a stunting syndrome. Two representative strains, designated AAF7 and M-8, were identified as enteroviruses on the basis of their size (25 nm in diameter), RNA in the viral core, virus growth in the cytoplasm, resistance to chloroform, trypsin and acid, and partial heat-stabilisation to molar magnesium chloride. They formed irregular plaques in chick kidney cell cultures. Numerous granula eosinophilic inclusions were induced in the cytoplasm of chicken kidney cell cultures infected with the viruses. Both isolates reacted partially with the G4260 strain of avian nephritis virus but not with the VR strain of avian encephalomyelitis virus.

Biological characterisation of avian enteroviruses and enterovirus-like viruses

The antigenic relationships and in vitro growth properties of 10 avian enteroviruses and enterovirus-like viruses were investigated. By cross-indirect immunofluorescence tests, six serogroups were identified. The lack of an antigenic relationship between viruses selected from three of these serogroups was confirmed by cross-neutralisation tests. Most of the viruses grew poorly or not at all in a range of primary avian cell cultures, but the majority grew following inoculation of chick embryos via the yolk sac. The ability of these viruses to produce growth retardation in commercial broiler chickens was variable. Following oral inoculation of 1-day-old chicks, most had little or no effect. The most severe growth retardation was observed with avian encephalomyelitis virus and an enterovirus-like virus isolated from broilers in Northern Ireland which subsequently developed the runting-stunting syndrome. The latter produced 28 to 37% growth retardation in a 14-day period.

Picorna-like viruses of young turkeys: pathogenesis of a disease of poults caused by a picorna-like virus

A strain of picorna-like virus cultivated in the yolk sac membranes of inoculated eggs was inoculated into 6-day-old turkeys. Clinical signs and mortality were observed between two and three weeks. Virus was seen in the faeces. The post-mortem and histological changes in the organs of infected birds were highly suggestive of a viral aetiology. The virus was reisolated from organs of sick and dead poults by inoculating SPF embryonated eggs.

Studies on the pathogenicity of enterovirus-like viruses in chickens

FP3 and 612 viruses are enterovirus-like viruses. Antibody to these viruses is widespread in chicken flocks, but nothing is known about their pathogenicity. Seven experiments were carried out to investigate the tissue tropism and associated pathology of these novel fowl enterovirus-like viruses and to compare these with the effects of the previously studied enterovirus-like viruses, ELV-1 and avian nephritis (ANV). ANV is now classified as an astrovirus. Preliminary experiments were carried out with FP3 virus, 612 virus and ELV-1 to determine the distribution of viral antigen. Each preliminary experiment was followed by a larger experiment that included more birds and in which a greater range of tissues was studied. It was shown that all four viruses studied replicated in the intestine and had differing abilities to spread to other tissues. Histological changes were present in most antigen-positive tissues but they were usually relatively mild. ELV-1 was associated with the most severe intestinal lesions, followed by FP3 virus. FP3 virus produced lesions in the kidney that were marginally more severe than those caused by the G-4260 strain of ANV. FP3 virus also caused pancreatic lesions. The 612 virus was found to be only mildly pathogenic in specific pathogen free chickens.

Cytokine responses in broiler lines that differ in susceptibility to malabsorption syndrome

1. Based on earlier studies it was hypothesised that there is an immunological basis for the differences in susceptibility to malabsorption syndrome (MAS). A study was conducted to investigate base-line and MAS-induced cytokine levels in the intestine of broilers that differ in MAS susceptibility. 2. The transcription of cytokine mRNA in the intestine was quantified using a real-time polymerase chain reaction (PCR) method. At different time points after disease induction the intestines of broilers were investigated for expression of interleukin (IL)-2, IL-6, IL-8, IL-18 and interferon (IFN)-gamma. Age-matched non-MAS-induced chickens served as controls. 3. Control chickens from a MAS-resistant line had higher concentrations of mRNA for IL-2, IL-6, IL-18 and IFN-gamma in the small intestine while no difference between the lines was found for IL-8. After induction of MAS the relative amounts of IL-2, IL-6, IL-8 and IFN-gamma mRNA increased more in the intestines of the susceptible line than in the gut of the resistant line. 4. We suggest that differences in cytokine mRNA in the base-line situation and in MAS-induced conditions indicate a difference in immune response regulation in the two broiler lines. This difference in response could lead to the difference in susceptibility to MAS.

Vitamin and trace mineral content in feed of breeders and their progeny: effects of growth, feed conversion and severity of malabsorption syndrome of broilers

1. A study was conducted to investigate the effects of several vitamins and trace elements chickens and in chickens experimentally infected with malabsorption syndrome (MAS). 2. Vitamins and trace minerals in feed were varied. Breeders received either a basal amount of vitamins and trace minerals (low mix) or an increased amount (high mix). Their progeny also received either a low mix or a high mix. Effects of different breeder and broiler mix combinations on broiler performance, heamatology, spleen weight and humoral response were examined in control chickens. The effects of the different feeds and breeder, broiler combinations at the severity and recovery of MAS infection were also studied. 3. In general, the immune system can be stimulated by addition of vitamins and trace minerals, without affecting the growth potential of the controls. The number of leukocytes increased on d 1 in the broilers descended from breeders receiving high mix. The response to Newcastle disease virus boost was affected by the different amount of vitamins. 4. When breeders received a high mix the number of infiltrating polymorphonuclear leukocytes in the intestine was higher compared with breeders receiving basal amounts of minerals and vitamins. Also the recovery rate of intestinal lesions, cystic crypts of Lieberkühn and villus atrophy, as observed by histopathology, was faster in the groups where the breeders received high mix.

Experimental reproduction of malabsorption syndrome with different combinations of reovirus, Escherichia coli, and treated homogenates obtained from broilers

Attempts to reproduce malabsorption syndrome (MAS) by oral inoculation with several different combinations including intestinal homogenate, reovirus, and hemolytic Escherichia coli obtained from MAS-affected chickens and intestinal homogenate from healthy chickens (healthy homogenate) were performed in 1-day-old specific-pathogen-free (SPF) broilers. The MAS homogenate, serving as a positive control, induced weight gain depression and intestinal lesions such as cystic crypts of Lieberkuhn, villus atrophy, and lymphoid and/or granulocytic infiltration. The healthy homogenate, the formalin-treated MAS homogenate, the formalin-treated healthy homogenate, and phosphate-buffered saline caused neither weight gain depression nor intestinal lesions. We were able to reproduce both weight gain depression and intestinal lesions by inoculation of reovirus either combined with the formalin-treated MAS homogenate or combined with healthy homogenate. Surprisingly, when hemolytic E. coli was added to the combination of reovirus with formalin-treated MAS homogenate, this did not cause weight gain depression although this combination caused the described intestinal lesions. Identical results were obtained with the combination of formalin-treated MAS homogenate with hemolytic E coli or the combination of reovirus with hemolytic E. coli. The intestinal lesions were more severe and developed faster by combinations including reovirus and formalin-treated MAS homogenate. This study indicates that a combination of enteropathogenic reovirus with other agents or substances that are present in an intestinal homogenate from MAS-affected and healthy chickens can induce MAS in SPF broilers. Escherichia coli is not essential for induction of weight gain depression but can play a role in development of intestinal lesions. Furthermore, intestinal lesions alone will not always result in weight gain depression.

Avian influenza A virus induced stunting syndrome-like disease in chicks

Two-day-old specific-pathogen free chicks were inoculated with type A influenza virus (A/whistling swan/Shimane/499/83 (H5N3) through the air sac. Inoculated chicks showed mild to severe diarrhea and lesions of pancreatitis and atrophy of the pancreas, thymus and bursa of Fabricius. One chick died on each of days 4, 6 and 14 postinoculation (PI). Reduced weight gain was conspicuous from day 22 PI. Positive immunoreaction to the virus antigen was detected in the pancreas, kidneys, liver, lungs and air sacs, and cecal lamina propria. Virus recovery persisted longer in the pancreas. Some of these findings conformed to those of stunting syndrome.

Some biological and physico-chemical properties of porcine circovirus

Some important biological and physico-chemical characteristics of porcine circovirus are reported. These include a study on the host distribution in nature, levels of colostrum-derived antibodies in piglets from sero-positive sows and the susceptibility of a range of cell cultures to infection with this virus. The results of haemagglutination studies, resistance to pH 3, chloroform and heat are also reported as are comparative buoyant densities and sedimentation coefficients of porcine circovirus and chicken anaemia virus.

A comparison of three serological methods to detect chicken and turkey antibodies to avian nephritis virus and the use of virus-specific monoclonal antibodies

Avian nephritis virus (ANV) strain G-4260 was inoculated orally in to 1-day-old and 3-week-old chickens and the sequential antibody response to the virus was monitored by serum neutralization, ELISA and immunofluorescence tests. The order of sensitivity of the serological tests was in the sequence given above, with the neutralization test being by far the most sensitive. There was no obvious difference in the antibody titres produced by either age group. Virus was recovered from kidney tissue, the highest titres being obtained 3 to 5 days post-inoculation. Histological examination revealed mainly lymphocytic infiltration of the interstitium and degenerative changes in the tubular epithelium of the kidney. The G-4260 strain of ANV was given orally to 1-day-old turkey poults, but no serological response was induced. Virus was not recovered from the kidneys and no histological lesions were produced in this organ. Monoclonal antibodies were produced which neutralized the infectivity of ANV. An antigen trap ELISA was developed using a monoclonal antibody and infected chicken kidney tissue cultures. However, this assay did not detect ANV in kidney samples taken directly from infected chickens, with the exception of one sample which was shown to contain the highest concentration of infectious virus.

Effect of malabsorption syndrome on pancreatic function in broilers

The effect of "malabsorption syndrome" on pancreatic function was studied in newly hatched broiler chicks orally inoculated during the first few hours of life with intestinal homogenates from birds with naturally occurring malabsorption syndrome. The control groups were treated with saline. Tissue samples were collected at 0, 2, 4, 6, 9, 13, 17, and 29 days of age from both groups. The BW of inoculated birds decreased significantly relative to that of controls as early as 9 days of age. Pancreatic amylase activity was significantly greater than that in controls by 2 days. Protease activity of inoculated birds increased significantly over that in controls on the 2nd day and decreased significantly on the 6th and 9th days. Reoviruses were detected in the fecal samples of inoculated birds on the 2nd and 3rd days and did not appear in control samples. Reoviruses were also isolated from the pancreatic tissue of two inoculated birds on the 3rd day. Symptoms characteristic of malabsorption syndrome may be elicited by maldigestion; in the present study, this probably resulted from reduced digestive enzyme production of the pancreas. Similarities of changes in plasma triiodothyronine and pancreatic protease levels suggested a possible relationship between thyroid and pancreatic dysfunction in the condition of the malabsorption syndrome.

Investigations of an enteric infection of cockatoos caused by an enterovirus-like agent

An enteric infection in cockatoos associated with a 30 nm diameter enterovirus-like agent seen in faeces and intestinal epithelial cells is described. The disease is characterised by intractable, profuse, mucoid diarrhoea, weight loss, dehydration and death. Lesions in the intestine consist of villous atrophy, villous fusion, enterocyte hyperplasia and, in some cases, chronic inflammation. Affected birds so far examined have concurrent psittacine beak and feather disease.