A polymerase chain reaction combined with restriction enzyme analysis was developed for detection and differentiation of all 12 fowl adenovirus (FAdV) serotypes representing the five fowl adenovirus (A to E) species. For primer design, the published sequences of the hexon proteins of FAdV1, FAdV8 and FAdV9 were aligned and conserved regions in the two pedestal regions adjacent to the L1 loop region were determined. A primer pair (hexon A/hexon B) was constructed and was shown to amplify approximately 900 bp of the hexon gene including the L1 loop region. An amplification product was detected using supernatant of infected cell cultures from all FAdV1 to FAdV12 reference strains used in our study. The sequence and the restriction patterns of the hexon A/B fragments of the 12 FAdV strains were determined and compared. The successive use of four different endonucleases allowed the complete differentiation of the reference FAdV strains. Twenty-six fowl adenoviruses isolated during our routine virological diagnosis activities could all be amplified using hexon A/hexon B primers. Restriction analysis results showed that 8/26 adenovirus strains contained two different FAdV types. FAdV4, FAdV12, FAdV1, FAdV5 and FAdV6 were the most frequently isolated.
This review is focused on the acute form of infectious bursal disease (IBD) caused by very virulent IBD virus (vvIBDV). First described in Europe about 10 years ago, this new form of the disease has rapidly spread all over the world, causing dramatic losses; after a decade, it still represents a considerable threat to the poultry industry. Emergence of the acute forms of the disease has drastically changed the epidemiology of IBD. Although their origin is still under investigation, vvIBDVs have spread all over the world in a very explosive but conserved manner. This raises the question of the origin of vvIBDVs, of the possible existence of reservoirs and of the possible emergence of new, distinct lineages in the future. While it has become clear that amino acids within the variable region of virus protein VP2 account for the molecular basis of antigenic variation, no definite hot spot that determines pathogenicity has been identified. Fingerprints of VP2 on vvIBDVs have to be considered more as common evolutionary markers than as virulence markers. The search for such markers is in progress. Pathogenesis of the disease is still poorly understood, and cytokines might play a crucial role in the onset of the disease and in the development of immunosuppression. Mechanisms such as apoptosis and necrosis have been described in lymphoid organs and are involved in the severity of the disease. Macrophages, especially, could play a specific role in the acute phase. Classical serotype 1 vaccines still induce good protection, but the actual problem for control of the disease has became the interference of maternally derived antibody in the establishment of the vaccination schedule. The development of safe vaccines that could either transmit a high passive immunity which could protect broilers during the whole growing period or prime an immune response before or at hatching in the presence of passive immunity might be established in the near future. In this context, recombinant vaccines and virus-neutralizing factor technology might have an advantage over other approaches.
SUMMARYA highly virulent strain of infectious bursal disease virus (IBDV) was isolated from the field and propagated in SPF chickens, causing up to 100% mortality. Although it still belongs to the standard serotype 1 IBD viruses, serological typing with monoclonal antibodies showed an antigenic drift in this pathogenic strain. Conventional 'intermediate' IBD vaccines are probably more antigenically related to the pathogenic strain than the mild ones and were effective in protecting SPF chickens against challenge.
The aim of this work was the selection and comparison of representative infectious bursal disease virus (IBDV) strains. Nine strains of IBDV, isolated at different times and from different geographic regions of Europe and China, were characterized. Batches of all strains were prepared following standardized protocols and checked for the absence of contaminating viruses. Criteria used for their characterization were: (i) the nucleotide sequence of the VP2 variable region, (ii) binding to a panel of neutralizing monoclonal antibodies in antigen capture enzyme-linked immunosorbent assays, and (iii) virulence in specific pathogen free chickens after infection with a standardized number of median embryo infective doses. Based on the first two criteria, two of nine strains were classified as classical virulent (cv) IBDV (F52/70, Cu-1wt), and five as very virulent (vv) IBDV (849VB, 96108, HK46, GX, Harbin). Remarkably, although a clear-cut difference was demonstrable between European cvIBDV (F52/70 and Cu-1wt) and vvIBDV (849VB and 96108) strains, there was a continuum in the pathogenicity of Chinese vvIBDVs. Our results indicate the probable existence of differences in virulence within IBDV lineages determined on the basis of antigenic typing using monoclonal antibodies and the alignment of the VP2 sequences. This indicates limitations in the analysis of IBDV pathotypes based on the VP2 variable region and emphasizes that these criteria may not be sufficient for the classification of IBDV strains.
Recently a novel DNA virus, designated TT virus (TTV), that possibly accounts for some of the cases of liver disease of unknown aetiology, was identified in Japanese patients. Using specific primer pairs for conserved regions, we detected TTV DNA by PCR in 16/84 (19%) German patients awaiting orthotopic liver transplantation because of decompensated liver cirrhosis (of diverse causes); in 4/25 (16%) patients with non-A-G hepatitis; in 1/7 patients with autoimmune hepatitis; and in one intravenous drug user. Sequence analysis showed that in contrast to the findings in Japanese patients only about 37% of our TTV sequences belonged to genomic group 1 but about 58% belonged to group 2, including several sequences belonging to a further subgroup tentatively designated group 2c. Further studies to clarify whether the novel virus has hepatitis-inducing capacity or other clinical significance are needed.
The antigenic and genetic relationships between very virulent (vv) infectious bursal disease viruses (IBDV)from
The sequences of the L1 loop of the hexon protein from representative fowl adenovirus (FAdV) strains of the different European and American collections were determined and compared. This study highlighted the lack of consensus in the numbering of the individual serotypes between the American and the European classifications. An identification system is proposed based on restriction fragment length polymorphism of the hexonA/hexonB polymerase chain reaction product. In addition, new insights into the relationships among FAdV strains are presented and discussed on the basis of phylogenetic analysis of the L1 loops sequences. Six clusters of strains that are supported by high bootstrap values were identified. Three of them are clearly independent, forming groups A, B and C, whereas the three others are clustered in a single 'supergroup', denominated D. Interestingly, the Japanese strain TR22 that is presently classified as European type 5 (species B) could not be assigned to any of the aforementioned clusters and might therefore constitute the sole representative of a seventh cluster.
11 African and two German IBDV strains isolated in the mid '80s from field outbreaks in vaccinated and unvaccinated chicken flocks displayed features of very virulent (vv) IBDV strains. The sequence data of the VP2 variable region and phylogenetic analysis confirm that these strains can be grouped within vv IBDV strains which appeared at the same time on the three continents Africa, Asia, and Europe. Strain Cu-1wt, responsible for severe IBD outbreaks in Germany 13 years earlier, showed some relatedness to these strains, but also significant differences at the genomic level, even though this strain has also features of the vv IBDV strains.
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