Ákos Hornyák

CENTRAL AUTONOMIC CONTROL OF THE BONE MARROW: MULTISYNAPTIC TRACT TRACING BY RECOMBINANT PSEUDORABIES VIRUS

Bone marrow is the primary place of hematopoiesis, where the development, survival and release of multipotent stem cells, progenitors, precursors and mature cells are under continuous humoral and neural control. Dense network of nerve fibers, containing various neurotransmitters is found in the bone marrow, however, the central neuronal circuit that regulates the activities of the bone marrow through these fibers remained unexplored. Transsynaptically connected neurons were mapped by virus-based transneuronal tracing technique using two isogenic, genetically engineered pseudorabies viruses, Bartha-DupGreen and Ba-DupLac expressing green fluorescent protein and beta-galactosidase, respectively. Bartha-DupGreen was injected into the femoral bone marrow of male rats and the progression of infection was followed 4-7 days post-inoculation. Virus-labeled cells were revealed in ganglia of the paravertebral chain and in the intermediolateral cell column of the lower thoracic spinal cord. Neurons were retrogradely labeled in the C1, A5, A7 catecholaminergic cell groups and several other nuclei of the ventrolateral and ventromedial medulla, the periaqueductal gray matter, the paraventricular and other hypothalamic nuclei, and in the insular and piriform cortex. Nerve transections and double-virus tracing from the bone marrow and the surrounding muscles were used to confirm the specific spreading of the virus. These results provide anatomical evidence for the CNS control of the bone marrow and identify putative brain areas, which are involved in autonomic regulation of the hematopoiesis, the release of progenitor cells, the blood supply and the immune cell function in the bone marrow.

Molecular Characterization of Feline Infectious Peritonitis Virus Strain DF-2 and Studies of the Role of ORF3abc in Viral Cell Tropism

ABSTRACT The full-length genome of the highly lethal feline infectious peritonitis virus (FIPV) strain DF-2 was sequenced and cloned into a bacterial artificial chromosome (BAC) to study the role of ORF3abc in the FIPV-feline enteric coronavirus (FECV) transition. The reverse genetic system allowed the replacement of the truncated ORF3abc of the original FIPV DF-2 genome with the intact ORF3abc of the canine coronavirus (CCoV) reference strain Elmo/02. The in vitro replication kinetics of these two viruses was studied in CrFK and FCWF-4 cell lines, as well as in feline peripheral blood monocytes. Both viruses showed similar replication kinetics in established cell lines. However, the strain with a full-length ORF3 showed markedly lower replication of more than 2 log10 titers in feline peripheral blood monocytes. Our results suggest that the truncated ORF3abc plays an important role in the efficient macrophage/monocyte tropism of type II FIPV.

Development of a one-step real-time quantitative PCR assay based on primer-probe energy transfer for the detection of porcine reproductive and respiratory syndrome virus

Abstract A one-step real-time RT-PCR method has been developed for the simultaneous detection of both genotypes of porcine reproductive and respiratory syndrome virus (PRRSV). The assay is based on primer-probe energy transfer, and the most important advantage of this is the relative tolerance towards mutations in the target-probe region. The primers and the probe were designed using an alignment of 235 Type 1 (including all subtypes) and Type 2 PRRSV strains. According to the alignment, multiple degenerations were included in the forward and reverse primers to enable the detection of all PRRSV strains deposited in the GenBank. Specificity was tested using 37 different PRRSV strains and eight other swine pathogen viruses. The detection limit was approximately 10 copies of RNA prepared from the Lelystad virus, a European Subtype 3 virus (Belarus strain Soz-8), and an American vaccine virus (Ingelvac MLV®). One TCID50 was the detection limit in the case of the cell cultured Lelystad virus and an American wild type isolate, respectively. The melting point analysis revealed melting point decrease, but no significant sensitivity and signal loss in the presence of numerous (up to five) target-probe mismatches, indicating the capability of tolerating even more mutations. The method was suitable for the detection and quantitation of phylogenetically divergent strains and can serve as a robust, high throughput tool for molecular diagnosis of the PRRSV.

In Vitro Host-Cell Susceptibility to Usutu Virus

We investigated the susceptibility to Usutu virus (Flavivirus) of 13 permanent cell lines, 3 primary cell cultures, and chicken embryos. Vero, PK-15, and goose embryo fibroblast cells developed cytopathic effects; however, viral multiplication was detected in all mammalian cell types by immunohistochemical tests. Chicken embryo fibroblast cells and chicken embryos were resistant.

High Prevalence of Turkey Parvovirus in Turkey Flocks from Hungary Experiencing Enteric Disease Syndromes

SUMMARY. Samples collected in 2008 and 2009, from 49 turkey flocks of 6 to 43 days in age and presenting clinical signs of enteric disease and high mortality, were tested by polymerase chain reaction and reverse transcription–polymerase chain reaction for the presence of viruses currently associated with enteric disease (ED) syndromes: astrovirus, reovirus, rotavirus, coronavirus, adenovirus, and parvovirus. Turkey astroviruses were found in 83.67% of the cases and turkey astrovirus 2 (TAst-2) in 26.53%. The investigations directly demonstrated the high prevalence of turkey parvovirus (TuPV) in 23 flocks (46.9%) experiencing signs of ED, making this pathogen the second most identified after astroviruses. Phylogenetic analysis on a 527 base pair-long region from the NS1 gene revealed two main clusters, a chicken parvovirus (ChPV) and a TuPV group, but also the presence of a divergent branch of tentatively named “TuPV-like ChPV” strains. The 23 Hungarian TuPV strains were separately positioned in two groups from the American origin sequences in the TuPV cluster. An AvaII-based restriction fragment length polymorphism assay has also been developed for the quick differentiation of TuPV, ChPV, and divergent TuPV-like ChPV strains. As most detected enteric viruses have been directly demonstrated in healthy turkey flocks as well, the epidemiology of this disease complex remains unclear, suggesting that a certain combination of pathogens, environmental factors, or both are necessary for the development of clinical signs.

Controversial results of the genetic analysis of a canine distemper vaccine strain

Canine distemper (CD) is a highly contagious, often fatal, multisystemic viral disease of receptive carnivores. The presence of a PsiI cleavage site on a specific location of the hemagglutinin (H) gene was found to be a hallmark of vaccine strains, thus, a previously published restriction fragment length polymorphism (RFLP) test using PsiI theoretically allows the distinction between all currently used vaccine strains and virulent field strains. The RFLP test was carried out on all brands of CD vaccines available in Hungary. The present work describes the extensive sequencing and phylogenetic study of the strain present in Vanguard (Pfizer Animal Health) vaccines, which following the PsiI based RFLP test reacted as a wild-type strain. Based on the product description provided by the manufacturer, all batches should have contained a virus strain (Snyder Hill) belonging to the group of vaccine strains (America-1). Extensive genetic analysis involving the full nucleic acid sequence of four other genes (N, M, P and F) of the CDV genome revealed that the incriminated virus strain showed a higher level of genetic identity to wild-type strains from the America-2 group than to any of the strains belonging to America-1 group, therefore the vaccine does not contain the virus strain stated by the manufacturer in its product description and has not been containing it since at least 1992.

Sarcocystis-infection of cattle in Hungary

BackgroundReports on Sarcocystis-infection of cattle are outdated or lacking in many European countries, including those in the Central-Eastern part of the continent. Therefore, to assess the prevalence of Sarcocystis spp. among bovids in Hungary, a countrywide survey was initiated. In addition, fulminant deaths of four cattle, that showed clinical signs and post mortem lesions resembling acute sarcocystiosis (“Dalmeny disease”), were investigated.MethodsDuring the countrywide survey individual heart and oesophagus samples were collected at slaughterhouses from 151 beef cattle and from 15 buffalo, kept in 31 places of Hungary. Analysis for Sarcocystis spp. was carried out with conventional PCRs for the 18S rDNA gene and gel electrophoresis, followed by sequencing of 36 strongly positive samples. Mortality cases were evaluated by histological, molecular, bacteriological and virological analyses of samples from various organs.ResultsAmong slaughtered cattle the rate of Sarcocystis-infection was 66%. S. cruzi was identified as the most prevalent species in aurochs-like breed, and the zoonotic S. hominis in Hungarian grey cattle. Concerning the sudden deaths of cattle, Sarcocystis-infection could not be demonstrated in organs showing haemorrhages, but S. cruzi cysts were present in the muscles. In one case “S. sinensis” was molecularly identified in the blood (indicating sarcocystaemia). Results of analyses for bacterial/viral pathogens were negative.ConclusionsS. cruzi appears to be the most prevalent Sarcocystis sp. in cattle in Hungary, followed by the zoonotic S. hominis. However, the rate of infection with both species was shown to differ between cattle breeds. The suspected role of Sarcocystis spp. as causative agents of the fatal cases could not be confirmed.

Attenuated pseudorabies virus-evoked rapid innate immune response in the rat brain

Ba-DupGreen (BDG) is a highly attenuated, Bartha-derived pseudorabies virus (PRV) expressing green fluorescent protein (GFP) with immediate-early kinetics. Innate immune mechanisms underlying the low infectivity of the virus and the disappearance of infected neurons from the brain were studied at cellular level following injection of BDG into the spleen. The temporal shift in the expression between GFP and viral structural proteins allowed us to discriminate three stages of viral infection in the compromised neurons in correlation with the ongoing local inflammatory response. Iba1/lectin/OX42-positive microglia were recruited to infected neurons within 4-6 h following the initiation of virus replication, incorporated BrdU, isolated the infected cells before the disintegration of their membranes and phagocytosed collapsed neurons. Ex vivo-labeled blood and bone marrow-derived leukocytes, including ED-1-positive macrophages were involved in the immune cell assembly around compromised neurons, which resulted in the complete clearance of infected neurons from the early-infected brain regions.

Novel mastadenovirus infection and clinical disease in a pygmy marmoset (Callithrix [Cebuella] pygmaea).

We describe the detection and successful isolation of a novel mastadenovirus from a pygmy marmoset (Callithrix [Cebuella] pygmaea) that died following an episode of severe respiratory signs. Pathologic/histopathologic examination revealed hydrothorax and catarrhal bronchopneumonia with pronounced desquamation of the bronchiolar epithelial cells, while in other airways a marked hyperplasia of the epithelial lining and numerous giant cells could be observed. We obtained partial sequence data from the adenoviral DNA-dependent DNA-polymerase gene of the isolated strain and analyses of this region showed the highest level of identity to the recently described bat adenoviruses (strains PPV1 and TJM) and the type 2 canine adenovirus. Similar results were gained by phylogenetic calculations indicating that this novel marmoset adenovirus is only distantly related to reference Old and New World primate adenoviruses and formed a monophyletic group with bat and canine adenoviruses and the equine adenovirus 1. Even though the source of the infection remained unknown, our results could imply the possibility of a cross-species transmission of the virus from an anonymous host to the pygmy marmoset.

A 45-Nucleotide Insertion in the NS2 Gene is Responsible for the Cytopathogenicity of a Bovine Viral Diarrhoea Virus Strain

Cytopathogenicity (cp) markers have recently been investigated in the genomes of field isolates of bovine viral diarrhoea virus (BVDV). Most of the isolates originated from mucosal disease (MD) cases observed after vaccination with a live attenuated vaccine, termed here BVDV-X. The NS2-3 genes of these isolates and of the vaccine proved to be identical, including a 45-nucleotide (nt) viral insertion at nt position 4355. The insertion originated from the NS4B/5A junction region of the BVDV genome. Interestingly, in BVDV strain CP7 a 27-nt insertion originating from the NS2 is located exactly at the same position. Complete genome analysis of BVDV-X did not reveal further potential cp markers. Furthermore, expression studies indicated that the insertion promotes NS2-3 cleavage. In order to examine the possible role of the 45-nt insertion in viral cytopathogenicity in details, a full-length infectious cDNA clone of BVDV-X was generated, and bovine turbinate (BT) cells were transfected with RNA transcribed from the clone. The recovered virus, termed BVDV-XR, showed slight retardation in growth in comparison with the original BVDV-X, and induced cytopathogenic effect (CPE). Since the natural non-cytopathogenic (ncp) counterpart of the vaccine virus was not available, an insertion-negative mutant cDNA clone was generated from BVDV-XR by PCR-directed mutagenesis. The recovered virus, termed BVDV-XR-INS-, showed the same growth characteristics as its cp counterpart BVDV-XR, but caused no CPE. These findings provide a direct proof that the 45-nt insertion at position 4355 has a basic role in the cytopathogenic character of this BVDV strain.