Anton Maderner

Detection of Cryptosporidium species in feces or gastric contents from snakes and lizards as determined by polymerase chain reaction analysis and partial sequencing of the 18S ribosomal RNA gene

Cryptosporidiosis is a well-known gastrointestinal disease of snakes and lizards. In the current study, 672 samples (feces and/or gastric contents or regurgitated food items) of various snakes and lizards were examined for the presence of cryptosporidia by polymerase chain reaction (PCR) assay targeting a part of the 18S ribosomal RNA gene. A consecutive sequencing reaction was used to identify the cryptosporidian species present in PCR-positive samples. Cryptosporidium varanii (saurophilum) was detected in 17 out of 106 (16%) samples from corn snakes (Pantherophis guttatus) and in 32 out of 462 (7%) samples from leopard geckos (Eublepharis macularius). Cryptosporidium serpentis was found in 8 out of 462 (2%) leopard gecko samples, but in no other reptile. The Cryptosporidium sp. “lizard genotype” was present in 1 leopard gecko sample, and 1 sample from a corn snake showed a single nucleotide mismatch to this genotype. Pseudoparasitic cryptosporidian species were identified in 5 out of 174 (3%) ophidian samples, but not in lizards. Other sequences did not show complete similarity to previously published Cryptosporidium sequences. The results stress the importance for diagnostic methods to be specific for Cryptosporidium species especially in snakes and show a relatively high prevalence of C. varanii in leopard geckos and corn snakes.

Investigations on the prevalence and potential pathogenicity of intestinal trichomonads in pigs using in situ hybridization

In pigs, three different trichomonad species (Tritrichomonas foetus, Tetratrichomonas buttreyi and Tritrichomonas rotunda) have been described as commensals in the large intestine. The aim of this study was to gain further knowledge on the prevalence and pathogenicity of trichomonads in pigs by using a morphology-based approach. Chromogenic in situ hybridization (ISH) is a technique which allows direct localization of the protozoa in the intestinal tissue and correlation of the infection with pathologic changes. In the present study paraffin-wax embedded colon and ileum samples of 192 pigs were analyzed with this method. Using a probe specific for all known members of the order Trichomonadida (OT) 100 of the 192 pigs were tested positive. Thereof, about 10% showed moderate to high-grade parasitic load with trichomonads invading the lamina propria. Partial 18S ribosomal RNA gene sequencing of six of those animals showed a 100% sequence identity with T. foetus sequences. The majority of these animals were also tested positive for other enteropathogenic agents, such as Brachyspira sp., Lawsonia intracellularis, Escherichia coli, and porcine circovirus type 2. All OT-positive samples were further examined with another probe complementary to all known Tritrichomonas species sequences including T. foetus, T. augusta, T. mobilensis and T. nonconforma resulting in only 48 positives. These results suggest that T. foetus may not only be considered as an intestinal commensal but rather a facultative pathogen of pigs with a tendency for tissue invasion in the presence of other agents. Furthermore, the existence of other – yet to be identified – trichomonad species in the colon of pigs was shown.

Design and validation of an oligonucleotide probe for the detection of protozoa from the order Trichomonadida using chromogenic in situ hybridization.

Infections with protozoal parasites of the order Trichomonadida are often observed in veterinary medicine. Based on the trichomonad species involved these infections are either asymptomatic or can lead to sometimes serious disease. To further study protozoal agents of the order Trichomonadida the establishment of a method to detect trichomonads directly in the tissue, allowing parasite-lesion correlation, is necessary. Here we describe the design and evaluation of an oligonucleotide probe for chromogenic in situ hybridization, theoretically allowing detection of all hitherto known members of the order Trichomonadida. The probe was designed on a region of the 18S ribosomal RNA gene homologue for all representatives of the order Trichomonadida available in the GenBank. Functionality of the probe was proven using protozoal cultures containing different trichomonads (Monocercomonas colubrorum, Hypotrichomonas acosta, Pentatrichomonas hominis, Trichomitus batrachorum, Trichomonas gallinae, Tetratrichomonas gallinarum, Tritrichomonas foetus, and Tritrichomonas augusta). Furthermore, three different tissue sections containing either T. gallinae, T. foetus or Histomonas meleagridis were tested positive. Additionally, to rule out cross-reactivity of the probe a large number of different pathogenic protozoal agents, fungi, bacteria and viruses were tested and gave negative results. The probe presented here can be considered an important tool for diagnosis of all to date described relevant protozoal parasites of the order Trichomonadida in tissue samples.

Application of in-situ hybridization for the detection and identification of avian malaria parasites in paraffin wax-embedded tissues from captive penguins

In captive penguins, avian malaria due to Plasmodium parasites is a well-recognized disease problem as these protozoa may cause severe losses among valuable collections of zoo birds. In blood films from naturally infected birds, identification and differentiation of malaria parasites based on morphological criteria are difficult because parasitaemia is frequently light and blood stages, which are necessary for identification of parasites, are often absent. Post-mortem diagnosis by histological examination of tissue samples is sometimes inconclusive due to the difficulties in differentiating protozoal tissue stages from fragmented nuclei in necrotic tissue. The diagnosis of avian malaria would be facilitated by a technique with the ability to specifically identify developmental stages of Plasmodium in tissue samples. Thus, a chromogenic in-situ hybridization (ISH) procedure with a digoxigenin-labelled probe, targeting a fragment of the 18S rRNA, was developed for the detection of Plasmodium parasites in paraffin wax-embedded tissues. This method was validated in comparison with traditional techniques (histology, polymerase chain reaction), on various tissues from 48 captive penguins that died at the zoological garden Schönbrunn, Vienna, Austria. Meronts of Plasmodium gave clear signals and were easily identified using ISH. Potential cross-reactivity of the probe was ruled out by the negative outcome of the ISH against a number of protozoa and fungi. Thus, ISH proved to be a powerful, specific and sensitive tool for unambiguous detection of Plasmodium parasites in paraffin wax-embedded tissue samples.

Localization of avian bornavirus RNA by in situ hybridization in tissues of psittacine birds with proventricular dilatation disease

Proventricular dilatation disease (PDD) of psittacine birds is caused by a number of different genotypes of a novel viral species, avian bornavirus (ABV). Here we present an in situ hybridization (ISH) procedure using digoxigenin-labeled RNA probes for localizing viral genomic and mRNA of ABV-2 and ABV-4 in tissues of affected birds. Out of eleven immunohistochemically positive birds ISH signals were only found in seven. Partial sequencing of the viral genome had shown that four of them were infected with ABV-2, two with ABV-4 and one had a mixed infection with ABV-2 and ABV-4. ISH signals were present in the brain, in the vegetative nerve system, glandular epithelia and smooth muscle cells of the intestinal tract and in cardiomyocytes. Hybridization signals for viral genome were more abundant than signals for mRNA. As the probes were not strictly genotype-specific, four of the birds had hybridization signals with both, the ABV-2 and ABV-4 probes. The signals achieved with the homologous probes were more intense and more abundant than those resulting from heterologous probes. Taken together, the results of this study show that ISH can be used as a tool for localizing ABV sequences in tissues of birds with PDD and confirm the causative role of ABVs by showing viral replication in affected tissues.

In situ hybridisation for the detection of Leishmania species in paraffin wax-embedded canine tissues using a digoxigenin-labelled oligonucleotide probe.

The diagnosis of canine leishmaniosis (CanL) is currently predominantly achieved by cytological or histological identification of amastigotes in biopsy samples, demonstration of specific anti-Leishmania antibodies and PCR-based approaches. All these methods have the advantage of being sensitive and more or less specific; nevertheless, most of them also have disadvantages. A chromogenic in situ hybridisation (ISH) procedure with a digoxigenin-labelled probe, targeting a fragment of the 5.8S rRNA was developed for the detection of all species of Leishmania parasites in routinely paraffin wax-embedded canine tissues. This method was validated in comparison with traditional techniques (histology, PCR), on various tissues from three dogs with histological changes consistent with a florid leishmaniosis. Amastigote forms of Leishmania gave clear signals and were easily identified using ISH. Various tissues from 10 additional dogs with clinical suspicion or/and a positive serological test but without histological presence of amastigotes did not show any ISH signals. Potential cross-reactivity of the probe was ruled out by negative outcome of the ISH against selected protozoa (including the related Trypanosoma cruzi) and fungi. Thus, ISH proved to be a powerful tool for unambiguous detection of Leishmania parasites in paraffin wax-embedded tissues.

Screening for West Nile virus infections of susceptible animal species in Austria.

Avian mortality and encephalomyelitis in equines are considered good indicators for West Nile virus (WNV) activity. We retrospectively tested 385 horse sera for WNV antibodies and looked for WNV nucleic acid and/or WNV antigen in paraffin embedded tissues from 12 horses with aetiologically unresolved encephalomyelitis and 102 free-living birds of different species which had been found dead. With the exception of four horses originating from eastern European countries investigated on the occasion of transit through Austria, all horse sera were negative. Nested RT-PCR of the horse tissues yielded no amplification of WNV-RNA. Also, all bird samples, examined by immunohistochemistry, in situ hybridization and nested RT-PCR were negative for WNV. These results indicate that currently WNV cannot be considered a significant pathogen in Austria.

Identification of Mixed Infections with Different Genotypes of Avian Bornaviruses in Psittacine Birds with Proventricular Dilatation Disease

SUMMARY. Proventricular dilatation disease (PDD) is a fatal, progressive neurological disorder of psittacine birds, which is caused by a single-stranded RNA virus, the avian bornavirus (ABV). The disease pattern includes lymphoplasmacytic inflammation of the central, peripheral and autonomic nervous system. Seven avian bornavirus genotypes have been identified during the last years. So far only monoinfections with a single genotype of ABV have been attributed to PDD cases. However, after a recent survey discovered a case of a double infection with two different ABV genotypes, this seemed to indicate the need for a more systematic search for mixed infections. Brain specimens from 21 psittacine birds affected with PDD were examined. Aim of the investigation was to generate partial ABV sequences of a part of the matrix protein (M) gene and to evaluate whether sequences of more than one ABV genotype were present. RNA was extracted, and subjected to reverse transcriptase PCR with primer pairs generating a partial sequence of the matrix protein (M) gene, followed by a cloning procedure. Ten clones per case were sequenced in order to elucidate whether sequences characteristic for one or more than one genotype were present. In 19 of 21 cases clear M gene sequences could be generated; in two cases nucleic acid amplification failed. Seven birds were infected with ABV 2 and nine with ABV 4, representing the predominant genotypes in Europe. Two cases showed a mixed infection with ABV 2 and ABV 4, and one case a mixed infection with ABV 2 and ABV 6. These results suggest that the molecular cloning method is a useful tool for distinguishing between single and multiple infection events by different ABV genotypes. RESUMEN. Nota de Investigación—Identificación de infecciones mixtas con diferentes genotipos de bornavirus aviares en aves psitácidas con la enfermedad de dilatación proventricular. La enfermedad de dilatación del proventrículo es un trastorno fatal, neurológico progresivo de las aves psitácidas, que es causada por un virus ARN de cadena simple, el bornavirus aviar. El patrón de la enfermedad incluye la inflamación linfoplasmocitaria del sistema nervioso autónomo central y periférico. Siete genotipos de bornavirus aviar se han identificado en los últimos años. Hasta el momento sólo las infecciones con un solo genotipo del bornavirus aviar se han observado en los casos de enfermedad de dilatación del proventrículo. Sin embargo, después de un estudio reciente se observó un caso de una infección doble con dos genotipos de bornavirus diferentes, por lo tanto parece ser necesaria una búsqueda más sistemática para detectar infecciones mixtas. Se examinaron las muestras cerebrales de 21 psitácidos afectados con dilatación del proventrículo. El objetivo de la investigación fue generar secuencias parciales del gene de la proteína matriz (M) de bornavirus aviares y para determinar si las secuencias de más de un genotipo de bornavirus estaban presentes. Se extrajo el ARN y se sometió a una transcripción reversa y PCR (RT-PCR) con pares de iniciadores que incluían parcialmente la secuencia del gene M, seguido por un procedimiento de clonación. Se secuenciaron diez clones por caso con el fin de dilucidar si las secuencias características para uno o más genotipos estaban presentes. En 19 de los 21 casos se generaron secuencias claras del gene M, en dos casos falló la amplificación de ácidos nucleicos. Siete aves fueron infectadas con el bornavirus número dos y nueve con el bornavirus 4, que representan a los genotipos predominantes en Europa. En dos casos se observó una infección mixta con bornavirus aviar 2 y 4, y un caso tenía una infección mixta con bornavirus 2 y 6. Estos resultados sugieren que el método de clonación molecular es una herramienta útil para distinguir entre eventos de infección simples o múltiples por los genotipos de bornavirus aviar.

First evidence of previously undescribed trichomonad species in the intestine of pigs

Three different parasites of the phylum Parabasala (Tritrichomonas foetus, Trichomitus rotunda and Tetratrichomonas buttreyi) have been described in pigs. In a previous study (Mostegl et al., 2011) approximately 47% of 91 paraffin wax-embedded intestinal samples of pigs which were Trichomonas-positive by in situ hybridization using a probe with a broad reactivity spectrum contained other species than T. foetus. Out of these, intestinal trichomonads from three pigs (pigs 1–3) were further analyzed by gene sequencing of a part of the 18S ribosomal RNA (rRNA) gene using primer walking. Subsequently, the partial sequences achieved by the different primer pairs were combined to a sequence of about 1000 bp for each trichomonad. In all three pigs unique sequences were acquired which showed only moderate similarities to sequences available in the GenBank. Alignments and the BLAST analysis showed a high degree of homology between sequences of trichomonads from pig 1 and pig 3 with only 1% difference. These sequences were found to be 92% similar to Hypotrichomonas acosta, a trichomonad isolated from squamate reptiles. The trichomonad sequence detected in the intestine of pig 2 showed about 10% nucleotide differences compared to pigs 1 and 3. This sequence was 97% similar to two Trichomitus batrachorum (a frog symbiont) sequences. A phylogenetic analysis using the neighbor-joining and maximum likelihood methods supported the data of the BLAST analysis. These results suggest the presence of at least two as yet undescribed trichomonad species in the intestinal contents of pigs.

Identification of a putatively novel trichomonad species in the intestine of a common quail (Coturnix coturnix).

A common quail (Coturnix coturnix) from a private keeping died unexpectedly and showed a moderate lymphocytic infiltration of the colonic mucosa associated with numerous protozoa-like objects at the pathological examination. These organisms were further identified using chromogenic in situ hybridization (ISH) and gene sequencing. ISH was performed on paraffin embedded tissue sections and produced a positive signal using a probe specific for the 18S ribosomal RNA (rRNA) gene of the order Trichomonadida, but remained negative with probes specific for the 18S rRNA gene of the common bird parasites Histomonas meleagridis, Tetratrichomonas gallinarum or Trichomonas gallinae. The trichomonads were found on the mucosal surface, inside the crypts and also immigrating into the lamina propria mucosae. DNA was extracted from the paraffin embedded tissue and the entire 18S rRNA gene, ITS-1 region, 5.8S rRNA gene, ITS-2 region and a part of the 28S rRNA gene were sequenced using primer walking. The acquired sequence showed 95% homology with Tritrichomonas foetus, a trichomonad never described in birds. A phylogenetic analysis of a part of the 18S rRNA gene or of the ITS-1, 5.8S and ITS-2 region clearly placed this nucleotide sequence within the family of Tritrichomonadidae. Therefore, the authors propose the detection of a putative new Tritrichomonas sp. in the intestine of a common quail.