Krisztina Ursu

Lineage 1 and 2 strains of encephalitic West Nile virus, central Europe.

An encephalitic lineage 2 strain of WNV is observed for the first time outside Africa.

Emergence of Usutu Virus in Hungary

ABSTRACT In 2001, Usutu virus (USUV), a mosquito-borne flavivirus of the Japanese encephalitis virus serogroup related to West Nile virus and previously restricted to sub-Saharan Africa, emerged in wild and zoo birds in and around Vienna, Austria. In order to monitor the spread of the infection, a dead bird surveillance program was established in Austria and in neighboring Hungary. In Hungary, 332 dead birds belonging to 52 species were tested for USUV infection between 2003 and 2006. In the first 2 years, all birds investigated were negative. In August 2005, however, USUV was detected in organ samples of a blackbird (Turdus merula), which was found dead in Budapest, Hungary, by reverse transcription-PCR, immunohistochemistry, and in situ hybridization. In July and August 2006, a further six dead blackbirds tested positive for USUV, and the virus was isolated from organ samples of one bird. These birds were also found in urban areas of Budapest. The nearly complete genomic sequence of one Hungarian USUV strain was determined; it was found to share 99.9% identity with the strain that has been circulating in Austria since 2001. This result indicates that the USUV strain responsible for the blackbird die-off in Budapest most likely spread from Austria to Hungary instead of being independently introduced from Africa.

First molecular evidence for the existence of distinct fish and snake adenoviruses

ABSTRACT From adenovirus-like viruses originating from a fish and a snake species, a conserved part of the adenoviral DNA polymerase gene was PCR amplified, cloned and sequenced. Phylogenetic analysis showed that the snake adenovirus is closely related to the members of the proposed genus Atadenovirus, whereas the fish isolate seems to represent a separate cluster, likely a new genus.

Genomic and phylogenetic analyses of an adenovirus isolated from a corn snake (Elaphe guttata) imply a common origin with members of the proposed new genus Atadenovirus.

Approximately 60% of the genome of an adenovirus isolated from a corn snake (Elaphe guttata) was cloned and sequenced. The results of homology searches showed that the genes of the corn snake adenovirus (SnAdV-1) were closest to their counterparts in members of the recently proposed new genus ATADENOVIRUS: In phylogenetic analyses of the complete hexon and protease genes, SnAdV-1 indeed clustered together with the atadenoviruses. The characteristic features in the genome organization of SnAdV-1 included the presence of a gene homologous to that for protein p32K, the lack of structural proteins V and IX and the absence of homologues of the E1A and E3 regions. These characteristics are in accordance with the genus-defining markers of atadenoviruses. Comparison of the cleavage sites of the viral protease in core protein pVII also confirmed SnAdV-1 as a candidate member of the genus ATADENOVIRUS: Thus, the hypothesis on the possible reptilian origin of atadenoviruses (Harrach, Acta Veterinaria Hungarica 48, 484-490, 2000) seems to be supported. However, the base composition of DNA sequence (>18 kb) determined from the SnAdV-1 genome showed an equilibrated GC content of 51%, which is unusual for an atadenovirus.

Phylogenetic analysis of rabbit haemorrhagic disease virus (RHDV) strains isolated between 1988 and 2003 in eastern Hungary.

Summary.To define the genetic variability of RHDV strains collected in eastern Hungary, liver samples from rabbits that had died of RHD were collected between 1988 and 2003. The phylogenetic analysis of a 528-nucleotide-long portion of the gene encoding the VP60 capsid protein assigned the strains into three genogroups. The first group contained viruses from 1988–1993, and a second group comprised isolates from 1994–2002. A third group comprised all of the tested representatives of the RHDVa subtype and a Hungarian isolate from 2003. These findings were supported by the alignments of the deduced amino acid sequences of the VP60 gene and strongly suggest the presence of the RHDVa subtype in Hungary.

Characterisation of the first complete genome sequence of the roe deer (Capreolus capreolus) papillomavirus

The complete genomic DNA of a novel roe deer (Capreolus capreolus) papillomavirus (CcPV1) was amplified and sequenced from fibropapillomatous skin lesions of a Hungarian roe deer. Viral DNA was detected by a pair of degenerate primers and the remaining genomic sequence was amplified by a long-template high-fidelity PCR and sequenced. The CcPV1 genome was 8032 bp long and contained open reading frames (ORFs) typical for Delta-papillomaviruses (E6, E7, E1, E2, E4, E5, E9, L2, and L1) and a 799 bp long untranslated regulatory region (URR). Phylogenetic analysis based on the 3861 bp long concatenated sequence of the E1-E2-L2-L1 ORFs and on separate alignments of all major ORFs using both neighbour-joining and maximum parsimony methods placed CcPV1 on a distinct branch between Ovine papillomavirus 1 and the other deer papillomaviruses within the Delta-papillomavirus genus, although pairwise nucleotide alignments of L1 ORF sequences determined highest identities with European Elk Papillomavirus (71.2%) and Reindeer Papillomavirus (70.3%).

Pathobiology of highly pathogenic avian influenza virus (H5N1) infection in mute swans (Cygnus olor)

The results of pathological, virological and polymerase chain reaction examinations carried out on 35 mute swans (Cygnus olor) that succumbed to a highly pathogenic avian influenza virus (H5N1) infection during an outbreak in Southern Hungary are reported. The most frequently observed macroscopic lesions included: haemorrhages under the epicardium, in the proventricular and duodenal mucosa and pancreas; focal necrosis in the pancreas; myocardial degeneration; acute mucous enteritis; congestion of the spleen and lung, and the accumulation of sero-mucinous exudate in the body cavity. Histopathological lesions comprised: lymphocytic meningo-encephalomyelitis accompanied by gliosis and occasional perivascular haemorrhages; multi-focal myocardial necrosis with lympho-histiocytic infiltration; pancreatitis with focal necrosis; acute desquamative mucous enteritis; lung congestion and oedema; oedema of the tracheal mucosa and, in young birds, the atrophy of the bursa of Fabricius as a result of lymphocyte depletion and apoptosis. The observed lesions and the moderate to good body conditions were compatible with findings in acute highly pathogenic avian influenza infections of other bird species reported in the literature. Skin lesions and lesions typical for infections caused by strains of lower pathogenicity (low pathogenic avian influenza virus) such as emaciation or fibrinous changes in the reproductive and respiratory organs, sinuses and airsacs were not observed. The H5N1 subtype avian influenza virus was isolated in embryonated fowl eggs from all cases and it was identified by classical and molecular virological methods.

Four different sublineages of highly pathogenic avian influenza H5N1 introduced in Hungary in 2006-2007

Highly pathogenic avian influenza (HPAI) H5N1 viruses were introduced to Hungary during 2006-2007 in three separate waves. This study aimed at determining the full-length genomic coding regions of the index strains from these epizootics in order to: (i) understand the phylogenetic relationship to other European H5N1 isolates, (ii) elucidate the possible connection between the different outbreaks and (iii) determine the putative origin and way of introduction of the different virus variants. Molecular analysis of the HA gene of Hungarian HPAI isolates obtained from wild birds during the first introduction revealed two groups designated Hungarian1 (HUN1) and Hungarian2 (HUN2) within sublineage 2.2B and clade 2.2.1, respectively. Sequencing the whole coding region of the two index viruses A/mute swan/Hungary/3472/2006 and A/mute swan/4571/Hungary/2006 suggests the role of wild birds in the introduction of HUN1 and HUN2 viruses: the most similar isolates to HUN1 and HUN2 group were found in wild avian species in Croatia and Slovakia, respectively. The second introduction of HPAI H5N1 led to the largest epizootic in domestic waterfowl in Europe. The index strain of the epizootic A/goose/Hungary/14756/2006 clustered to sublineage 2.2.A1 forming the Hungarian3 (HUN3) group. A common ancestry of HUN3 isolates with Bavarian strains is suggested as the most likely scenario of origin. Hungarian4 (HUN4) viruses isolated from the third introduction clustered with isolate A/turkey/United Kingdom/750/2007 forming a sublineage 2.2.A2. The origin and way of introduction of HUN4 viruses is still obscure, thus further genetic, phylogenetic, ecological and epidemiological data are required in order to elucidate it.

Presumptive Identification of a Novel Adenovirus in a Harris Hawk (Parabuteo unicinctus), a Bengal Eagle Owl (Bubo bengalensis), and a Verreaux's Eagle Owl (Bubo lacteus)

Abstract An outbreak of adenoviral disease occurred in 2 separate raptor collections in the United Kingdom during August and September of 2004, involving a Harris hawk (Parabuteo unicinctus), a Bengal eagle owl (Bubo bengalensis), and a Verreauxs eagle owl (Bubo lacteus). The cases were diagnosed by results of necropsy, histologic examination, and polymerase chain reaction (PCR). Although virus isolation and electron microscopy were unsuccessful in identifying adenovirus as the causative agent, PCR testing with consensus primers resulted in amplicons of specific size. DNA sequencing of the PCR products identified the detected virus as a new member of the genus Siadenovirus. To our knowledge, this is the first report of adenovirus infection in these avian species, and we propose that this virus be called “raptor adenovirus.”

The first complete genome sequence of a non-chicken aviadenovirus, proposed to be turkey adenovirus 1 ☆

The complete genome sequence of an adenovirus, isolated from turkey and proposed to be turkey adenovirus type 1 (TAdV-1), was determined to extend our knowledge about the genome organisation and phylogeny of aviadenoviruses. The longest adenovirus genome, consisting of 45,412 bp, with the highest G+C content (of 67.55%) known to date, was found. The central part of the TAdV-1 genome has the conserved gene set and arrangement that are characteristic for every other adenovirus analysed to date. This genome core is flanked by the terminal early regions 1 and 4 (E1 and E4). Aviadenovirus-specific genus-common genes were found in these regions, each containing nine such open reading frames (ORFs). Additionally a type-specific novel ORF, designated as ORF50, was found in E4. Phylogenetic analysis as well as the presence of the genus-specific genes, splice sites and protease cleavage sites confirmed the classification of TAdV-1 in the genus Aviadenovirus. Intrageneric analyses of two genus-specific genes demonstrated the distinctness of TAdV-1 from other aviadenoviruses, thus supporting the proposal for the establishment of a new species, Turkey adenovirus B for TAdV-1.