Your search keyword '"Wibbelt, Gudrun"' showing total 9 results

1. The other white-nose syndrome transcriptome: Tolerant and susceptible hosts respond differently to the pathogen Pseudogymnoascus destructans.

Author

Davy, Christina M., Donaldson, Michael E., Willis, Craig K. R., Saville, Barry J., McGuire, Liam P., Mayberry, Heather, Wilcox, Alana, Wibbelt, Gudrun, Misra, Vikram, Bollinger, Trent, and Kyle, Christopher J.

Subjects

WHITE-nose syndrome, BAT diseases, PSEUDOGYMNOASCUS destructans, COMMUNICABLE diseases in animals, CONSERVATION genetics, GENE expression

Abstract

Mitigation of emerging infectious diseases that threaten global biodiversity requires an understanding of critical host and pathogen responses to infection. For multihost pathogens where pathogen virulence or host susceptibility is variable, host-pathogen interactions in tolerant species may identify potential avenues for adaptive evolution in recently exposed, susceptible hosts. For example, the fungus Pseudogymnoascus destructans causes white-nose syndrome ( WNS) in hibernating bats and is responsible for catastrophic declines in some species in North America, where it was recently introduced. Bats in Europe and Asia, where the pathogen is endemic, are only mildly affected. Different environmental conditions among Nearctic and Palearctic hibernacula have been proposed as an explanation for variable disease outcomes, but this hypothesis has not been experimentally tested. We report the first controlled, experimental investigation of response to P. destructans in a tolerant, European species of bat (the greater mouse-eared bat, Myotis myotis). We compared body condition, disease outcomes and gene expression in control (sham-exposed) and exposed M. myotis that hibernated under controlled environmental conditions following treatment. Tolerant M. myotis experienced extremely limited fungal growth and did not exhibit symptoms of WNS. However, we detected no differential expression of genes associated with immune response in exposed bats, indicating that immune response does not drive tolerance of P. destructans in late hibernation. Variable responses to P. destructans among bat species cannot be attributed solely to environmental or ecological factors. Instead, our results implicate coevolution with the pathogen, and highlight the dynamic nature of the 'white-nose syndrome transcriptome.' Interspecific variation in response to exposure by the host (and possibly pathogen) emphasizes the importance of context in studies of the bat- WNS system, and robust characterization of genetic responses to exposure in various hosts and the pathogen should precede any attempts to use particular bat species as generalizable 'model hosts.' [ABSTRACT FROM AUTHOR]

Published

2017

2. Temperature-Dependent Growth of Geomyces destructans, the Fungus That Causes Bat White-Nose Syndrome.

Author

Verant, Michelle L., Boyles, Justin G., Waldrep Jr., William, Wibbelt, Gudrun, Blehert, David S., and Fisher, Matthew Charles

Subjects

WHITE-nose syndrome, BAT diseases, FUNGAL growth, FUNGAL morphology, TEMPERATURE

Abstract

White-nose syndrome (WNS) is an emergent disease estimated to have killed over five million North American bats. Caused by the psychrophilic fungus Geomyces destructans, WNS specifically affects bats during hibernation. We describe temperature-dependent growth performance and morphology for six independent isolates of G. destructans from North America and Europe. Thermal performance curves for all isolates displayed an intermediate peak with rapid decline in performance above the peak. Optimal temperatures for growth were between 12.5 and 15.8°C, and the upper critical temperature for growth was between 19.0 and 19.8°C. Growth rates varied across isolates, irrespective of geographic origin, and above 12°C all isolates displayed atypical morphology that may have implications for proliferation of the fungus. This study demonstrates that small variations in temperature, consistent with those inherent of bat hibernacula, affect growth performance and physiology of G. destructans, which may influence temperature-dependent progression and severity of WNS in wild bats. [ABSTRACT FROM AUTHOR]

Published

2012

3. Inoculation of bats with European Geomyces destructans supports the novel pathogen hypothesis for the origin of white-nose syndrome.

Author

Warnecke, Lisa, Turner, James M., Bollinger, Trent K., Lorch, Jeffrey M., Misra, Vikram, Cryan, Paul M., Wibbelt, Gudrun, Blehert, David S., and WilIis, Craig K. R.

Subjects

WHITE-nose syndrome, VACCINATION, BAT diseases, MYCOSES, HIBERNATION

Abstract

White-nose syndrome (WNS) is an emerging disease of hibernating bats associated with cutaneous infection by the fungus Geo- myces desrructans (Gd). and responsible Mr devastating declines of bat populations in eastern North America. Affected bats appear emaciated and one hypothesis is that they spend too much time out of torpor during hibernation, depleting vital fat reserves required to survive the winter. The fungus has also been found at low levels on bats throughout Europe but without mass mortality. This finding suggests that Gd is either native to both continents but has been rendered more pathogenic in North America by mutation or environmental change, or that it recently arrived in North America as an invader from Europe. Thus, a causal link between Gd and mortality has not been established and the reason for its high pathogenicity in North America is unknown. Here we show that experimental inoculation with either North American or European isolates of Gd causes WNS and mortality in the North American bat, Myotis Iucifugus. In contrast to control bats, individuals inoculated with either isolate of Gd developed cutaneous infections diagnostic of WNS, exhibited a progressive increase in the frequency of arousals from torpor during hibernation, and were emaciated after 3-4 mo. Our results demonstrate that al- tered torpor-arousal cycles underlie mortality from WNS and provide direct evidence that Gd is a novel pathogen to North America from Europe. [ABSTRACT FROM AUTHOR]

Published

2012

4. Pan-European Distribution of White-Nose Syndrome Fungus (Geomyces destructans) Not Associated with Mass Mortality.

Author

Puechmaille, Sébastien J., Wibbelt, Gudrun, Korn, Vanessa, Fuller, Hubert, Forget, Frédéric, Mühldorfer, Kristin, Kurth, Andreas, Bogdanowicz, Wieslaw, Borel, Christophe, Bosch, Thijs, Cherezy, Thomas, Drebet, Mikhail, Görföl, Tamás, Haarsma, Anne-Jifke, Herhaus, Frank, Hallart, Guénael, Hammer, Matthias, Jungmann, Christian, Bris, Yann Le, and Lutsar, Lauri

Subjects

*WHITE-nose syndrome, *BAT mortality, *ANIMAL morphology, *BAT diseases, *FUNGI, *GENETIC disorders, *ABNORMALITIES in animals, *ANIMAL species

Abstract

Background: The dramatic mass mortalities amongst hibernating bats in Northeastern America caused by ''white nosesyndrome'' (WNS) continue to threaten populations of different bat species. The cold-loving fungus, Geomyces destructans, is the most likely causative agent leading to extensive destruction of the skin, particularly the wing membranes. Recent investigations in Europe confirmed the presence of the fungus G. destructans without associated mass mortality in hibernating bats in six countries but its distribution remains poorly known. Methodology/Principal Findings: We collected data on the presence of bats with white fungal growth in 12 countries in Europe between 2003 and 2010 and conducted morphological and genetic analysis to confirm the identity of the fungus as Geomyces destructans. Our results demonstrate the presence of the fungus in eight countries spanning over 2000 km from West to East and provide compelling photographic evidence for its presence in another four countries including Romania, and Turkey. Furthermore, matching prevalence data of a hibernaculum monitored over two consecutive years with data from across Europe show that the temporal occurrence of the fungus, which first becomes visible around February, peaks in March but can still be seen in some torpid bats in May or June, is strikingly similar throughout Europe. Finally, we isolated and cultured G. destructans from a cave wall adjacent to a bat with fungal growth. Conclusions/Significance: G. destructans is widely found over large areas of the European continent without associated mass mortalities in bats, suggesting that the fungus is native to Europe. The characterisation of the temporal variation in G. destructans growth on bats provides reference data for studying the spatio-temporal dynamic of the fungus. Finally, the presence of G. destructans spores on cave walls suggests that hibernacula could act as passive vectors and/or reservoirs for G. destructans and therefore, might play an important role in the transmission process. [ABSTRACT FROM AUTHOR]

Published

2011

5. White-Nose Syndrome Fungus (Geomyces destructans) in Bats, Europe.

Author

Wibbelt, Gudrun, Kurth, Andreas, Hellmann, David, Weishaar, Manfred, Barlow, Alex, Veith, Michael, Prüger, Julia, Görföl, Tamas, Grosche, Lena, Bontadina, Fabio, Zöphel, Ulrich, Seidl, Hans-Peter, Cryan, Paul M., and Blehert, David S.

Subjects

*BAT diseases, *SYNDROMES in animals, *MYCOSES, *SYMPTOMS in animals, *GENETICS of disease susceptibility

Abstract

White-nose syndrome is an emerging disease in North America that has caused substantial declines in hibernating bats. A recently identified fungus (Geomyces destructans) causes skin lesions that are characteristic of this disease. Typical signs of this infection were not observed in bats in North America before white-nose syndrome was detected. However, unconfirmed reports from Europe indicated white fungal growth on hibernating bats without associated deaths. To investigate these differences, hibernating bats were sampled in Germany, Switzerland, and Hungary to determine whether G. destructans is present in Europe. Microscopic observations, fungal culture, and genetic analyses of 43 samples from 23 bats indicated that 21 bats of 5 species in 3 countries were colonized by G. destructans. We hypothesize that G. destructans is present throughout Europe and that bats in Europe may be more immunologically or behaviorally resistant to G. destructans than their congeners in North America because they potentially coevolved with the fungus. [ABSTRACT FROM AUTHOR]

Published

2010

6. Emerging diseases in Chiroptera: why bats?

Author

Wibbelt, Gudrun, Moore, Marianne S., Schountz, Tony, and Voigt, Christian C.

Subjects

CONFERENCES & conventions, BAT diseases, COMMUNICABLE diseases, FLYING foxes

Abstract

The article offers information on the "2nd International Bat Meeting: Bat Biology and Infectious Diseases" held in Berlin, Germany from February 19-21, 2010. A group of specialists in animal disease and bat biologists participated in the conference to investigate why bats are prone to diseases. The opening address by Hume Field from Queensland Primary Industries and Fisheries focused on infectious diseases. A presentation is made by University of Cambridge student Alison Peel on the genetics of the flying fox.

Published

2010

7. Multiple evolutionary origins of bat papillomaviruses.

Author

García-Pérez, Raquel, Gottschling, Marc, Wibbelt, Gudrun, and Bravo, Ignacio G.

Subjects

*PAPILLOMAVIRUS diseases, *BAT diseases, *STRAW-colored fruit bat, *VIRUS isolation, *FLYING foxes, *DETECTION of microorganisms, *TRANSCRIPTION factors, *VETERINARY epidemiology, *DISEASES

Abstract

Abstract: Infection by papillomaviruses (PVs) has been linked to different types of neoplasias, in both human and non-human hosts. Knowledge about PV diversity is essential to reliably infer the evolutionary history of these pathogens and to elucidate the link between infection and disease. We cloned and sequenced the complete genome of a novel PV, EhelPV1, isolated from hair bulbs from a captive straw-colored fruit bat Eidolon helvum (Pteropodidae, Chiroptera). We also retrieved partial sequences of the E1 and L1 genes from hair bulbs from a captive Indian flying fox Pteropus giganteus (Pteropodidae, Chiroptera). The detected virus (PgigPV1) presumably corresponded to a novel type as well. Maximum likelihood phylogenetic analyses were conducted using a representative collection of 132 PVs. EhelPV1 belonged to the Lambda+Mu-PV crown group and was most closely related to another bat PV, MschPV2. Both fragments of PgigPV1 were placed alongside with EhelPV1. The novel PVs were phylogenetically distant from other previously described bat PVs, namely MrPV1, MschPV1 and RaPV1. We have further characterized the sequence patterns of the E2-binding sites occurring in the upstream regulatory region of Lambda+Mu-PVs. Common fingerprints within this region are shared by certain PVs. However, there is not a sharp correspondence between the repertoire of transcription factor binding sites in the viral regulatory region and host range, tissue tropism or viral life style. Our results reinforce the hypothesis that PVs have undergone an initial radiation prior to the divergence of the mammalian hosts, giving rise to the present-day PV crown groups. [Copyright &y& Elsevier]

Published

2013

8. White-nose syndrome: is this emerging disease a threat to European bats?

Author

Puechmaille, Sébastien J., Frick, Winifred F., Kunz, Thomas H., Racey, Paul A., Voigt, Christian C., Wibbelt, Gudrun, and Teeling, Emma C.

Subjects

*WHITE-nose syndrome, *BAT diseases, *FUNGI, *COMMUNICABLE diseases, *MYCOSES, *DISEASE research

Abstract

White-nose syndrome (WNS) is a newly emergent disease that potentially threatens all temperate bat species. A recently identified fungus, Geomyces destructans, is the most likely causative agent of this disease. Until 2009, WNS and G. destructans were exclusively known from North America, but recent studies have confirmed this fungus is also present in Europe. We assembled an international WNS consortium of 67 scientists from 29 countries and identified the most important research and conservation priorities to assess the risk of WNS to European bats. Here, we review what is known about WNS and G. destructans and detail the conservation and research recommendations aimed at understanding and containing this emerging infectious disease. [ABSTRACT FROM AUTHOR]

Published

2011

9. Genetic diversity of Pasteurella species isolated from European vespertilionid bats

Author

Mühldorfer, Kristin, Schwarz, Stefan, Fickel, Jörns, Wibbelt, Gudrun, and Speck, Stephanie

Subjects

*BACTERIAL diversity, *PASTEURELLA multocida, *ISOLATION of biotechnological microorganisms, *PASTEURELLOSIS, *PASTEURELLA, *BAT diseases, *VESPERTILIONIDAE, *RECOMBINANT DNA, *NUCLEOTIDE sequence, *PULSED-field gel electrophoresis, *PHENOTYPES, *SPECIES diversity, *WILDLIFE research, *VETERINARY microbiology

Abstract

Abstract: Pasteurella are an important cause of fatal infections in free-ranging bats, but the genetic diversity of bat-derived strains is unclear. In the current study, 81 Pasteurella strains associated with pneumonia, severe organ necroses and systemic infection in free-ranging European vespertilionid bats were characterized by biochemical and molecular typing methods. Genetic relationships and subspecies status of Pasteurella multocida strains were determined by comparative 16S rDNA and rpoB gene sequence analysis. In addition, 30 representatives of the bat-derived P. multocida strains were selected based on phenotypic and genotypic tests to be compared by pulsed-field gel electrophoresis using SmaI. Most (85%) of the Pasteurella strains obtained from free-ranging bats in this study represented P. multocida ssp. septica. P. multocida ssp. multocida and Pasteurella species B were also identified in a small number of isolates. PFGE analysis correlated well with the sequencing results and revealed a high genetic diversity among bat-derived strains of P. multocida ssp. septica. Strains sharing identical or closely related SmaI fragment patterns were cultured from bats of different species, geographic origins, and years of isolation. The presence of numerous different P. multocida strains allows the assumption that Pasteurella infections in vespertilionid bats are not solely based on intra- but also on inter-species transmission. And indeed, our results present evidence of P. multocida infections in bats following cat predation. [Copyright &y& Elsevier]

Published

2011