Meike M. Mostegl scite author profile

Native European passerine birds are frequently clinically inapparent carriers of haemosporidian parasites of the genus Plasmodium. Clinical disease and death are only exceptionally reported. In the present study, tissue samples of 233 wild passerine birds found dead in Eastern Austria were examined by in situ hybridization (ISH) and partial cytochrome B gene sequence analysis for the presence, abundance and taxonomic assignment of Plasmodium spp. In 34 cases (14.6%), ISH yielded a positive result with large numbers of developmental stages in different cell types of the spleen, liver, brain and lung. The abundance of the tissue stages, which was comparable to fatal cases of avian malaria in penguins, suggested a major contribution to the cause of death. Genetic analysis revealed infections with representatives of three different valid species of Plasmodium, Plasmodium elongatum, Plasmodium lutzi and Plasmodium vaughani. Genetically identical parasite lineages had been found in a previous study in penguins kept in the Vienna zoo, providing evidence for the role of wild birds as reservoir hosts. Further, this study provides evidence that several species of Plasmodium are able to abundantly proliferate in endemic wild birds ultimately resulting in mortalities.

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

Dinhopl

Mostegl

Richter

et al. 2011

Avian Pathology

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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.

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Association of glycosylphosphatidylinositol‐anchored protein with retroviral particles

et al. 2008

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We describe for the first time the association of glycosylphosphatidylinositol (GPI) -anchored proteins with retroviral and lentiviral particles, similar to a process well established for cells, termed "painting." The aim of the study was to assess the feasibility of modification of retroviral vectors by exogenous addition of recombinant protein, removing the need for genetic engineering of virus producer cell lines. The recombinant GPI protein CD59his was purified via fast protein liquid chromatography and associated with concentrated virus stock in a controlled incubation procedure. Reaction mixtures were purified in order to remove nonassociated GPI protein and endogenous protein. Analysis of samples by immunoblotting revealed that CD59his was only detectable in the presence of viral particles. From this, we conclude that CD59his could be stably associated with retroviral particles. In addition, we demonstrated by flow cytometry that virus particles remain infectious after these procedures. As well as suggesting a novel possibility for interaction between enveloped virus and host, we believe that the stable association of recombinant GPI proteins to retroviral particles can be developed into an important tool for both research and clinical applications, especially in the fields of gene therapy and vaccine development.

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Application of In-situ Hybridization for the Detection and Identification of Avian Malaria Parasites in Paraffin Wax-embedded Tissues from Captive Penguins

Dinhopl

Mostegl

Richter

et al. 2010

Journal of Comparative Pathology

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Meike M. Mostegl

In situ hybridization and sequence analysis reveal an association of Plasmodium spp. with mortalities in wild passerine birds in Austria

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

Association of glycosylphosphatidylinositol‐anchored protein with retroviral particles

Application of In-situ Hybridization for the Detection and Identification of Avian Malaria Parasites in Paraffin Wax-embedded Tissues from Captive Penguins

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