Your search keyword '"Heckel G"' showing total 6 results

1. Reemergence of Lymphocytic Choriomeningitis Mammarenavirus, Germany.

Author

Mehl C, Wylezich C, Geiger C, Schauerte N, Mätz-Rensing K, Nesseler A, Höper D, Linnenbrink M, Beer M, Heckel G, and Ulrich RG

Subjects

Animals, Mice, Lymphocytic choriomeningitis virus, Germany, Lymphocytic Choriomeningitis, Rodent Diseases

Abstract

Lymphocytic choriomeningitis mammarenavirus (LCMV) is a globally distributed zoonotic pathogen transmitted by house mice (Mus musculus). We report the reemergence of LCMV (lineages I and II) in wild house mice (Mus musculus domesticus) and LCMV lineage I in a diseased golden lion tamarin (Leontopithecus rosalia) from a zoo in Germany.

Published

2023

2. Zoonotic pathogen screening of striped field mice (Apodemus agrarius) from Austria.

Author

Jeske K, Herzig-Straschil B, Răileanu C, Kunec D, Tauchmann O, Emirhar D, Schmidt S, Trimpert J, Silaghi C, Heckel G, Ulrich RG, and Drewes S

Subjects

Animals, Austria epidemiology, Mice, Murinae microbiology, Anaplasmataceae, Orthohantavirus genetics, Hantavirus Infections epidemiology, Hantavirus Infections veterinary, Rodent Diseases diagnosis, Rodent Diseases epidemiology, Rodent Diseases microbiology

Abstract

The striped field mouse (Apodemus agrarius) is known to carry several zoonotic pathogens, including Leptospira spp. and Dobrava-Belgrade orthohantavirus (DOBV). Since its first detection in 1996 in south-east Austria, the striped field mouse has further expanded its range in Austria. Here, we screened 35 striped field mice collected in an Austrian region near the Hungarian border for DOBV, Leptospira spp. and seven vector-borne pathogens. Hantavirus RT-PCR screening and DOBV IgG ELISA analysis led to the detection of two DOBV-positive striped field mice. The complete coding sequences of all three genome segments of both strains were determined by a combination of target enrichment and next-generation sequencing. Both complete coding S segment sequences clustered within the DOBV genotype Kurkino clade with the highest similarity to a sequence from Hungary. In one of 35 striped field mice, Leptospira borgpetersenii sequence type (ST) 146 was detected. Bartonella spp., Borrelia miyamotoi and Neoehrlichia mikurensis DNA was detected in four, one and two of 32 mice, respectively. Babesia, Anaplasma, Ehrlichia and Rickettsia specific DNA was not detected. Future investigations will have to determine the prevalence and invasion of these pathogens with the ongoing range expansion of the striped field mouse in Austria., (© 2021 The Authors. Transboundary and Emerging Diseases published by Wiley-VCH GmbH.)

Published

2022

3. FREQUENT LEPTOSPIRA SPP. DETECTION BUT ABSENCE OF TULA ORTHOHANTAVIRUS IN MICROTUS SPP. VOLES, NORTHWESTERN SPAIN.

Author

Jeske K, Emirhar D, García JT, González-Barrio D, Olea PP, Fons FR, Schulz J, Mayer-Scholl A, Heckel G, and Ulrich RG

Subjects

Animals, Arvicolinae, Spain epidemiology, Zoonoses, Leptospira, Leptospirosis epidemiology, Leptospirosis veterinary, Rodent Diseases epidemiology

Abstract

The common vole (Microtus arvalis) is a major agricultural pest in Europe and is a reservoir for several zoonotic agents, such as Leptospira spp. and Tula orthohantavirus (TULV). However, little is known about the occurrence of those pathogens in voles from Spain, where the species has largely expanded its distribution range in the past decades, causing agricultural pests and zoonotic diseases. For a molecular survey, 580 common voles and six Lusitanian pine voles (Microtus lusitanicus) were collected in 26 localities from four provinces of northwestern Spain. We assessed the presence of Leptospira spp. DNA in kidney tissue by PCR targeting the lipL32 gene, detecting a prevalence of 7.9% (95% confidence interval, 5.9-10.4) for common voles and of 33.3% (95% confidence interval, 4.3-77.7) for Lusitanian pine voles. We identified Leptospira kirschneri in 24 animals and Leptospira borgpetersenii in two animals, using secY gene-specific PCR. We analyzed environmental and demographic factors (such as age class, weight, and sex) and population dynamics data for their potential effect on the Leptospira spp. prevalence in those voles. The Leptospira spp. DNA detection rate in common voles increased significantly with maximum air temperature, vole weight, and amount of accumulated rainfall during the 90 d before capture and within the peak phase of the population cycle. We assessed the presence of TULV in lung tissue of 389 voles by reverse-transcription PCR, with no positive results. The absence of TULV might be explained by the evolutionary isolation of the common vole in Spain. The detection of two Leptospira genomospecies underlines the necessity for further typing efforts to understand the epidemiology of leptospiral infection in the common vole and the potential risk for human health in Spain., (© Wildlife Disease Association 2021.)

Published

2021

4. Hantavirus- Leptospira coinfections in small mammals from central Germany.

Author

Jeske K, Jacob J, Drewes S, Pfeffer M, Heckel G, Ulrich RG, and Imholt C

Subjects

Animals, Arvicolinae microbiology, Arvicolinae virology, Coinfection epidemiology, Coinfection microbiology, Coinfection virology, DNA, Bacterial genetics, Germany epidemiology, Orthohantavirus classification, Orthohantavirus genetics, Orthohantavirus isolation & purification, Hantavirus Infections epidemiology, Leptospira classification, Leptospira genetics, Leptospira isolation & purification, Leptospirosis epidemiology, Phylogeny, RNA, Viral genetics, Rodent Diseases microbiology, Rodent Diseases virology, Coinfection veterinary, Hantavirus Infections veterinary, Leptospirosis veterinary, Rodent Diseases epidemiology

Abstract

European orthohantaviruses (Puumala orthohantavirus (PUUV); Dobrava-Belgrade orthohantavirus (DOBV), genotype Kurkino; Tula orthohantavirus (TULV)), and Leptospira spp. are small mammal-associated zoonotic pathogens that cause diseases with potentially similar symptoms in humans. We investigated the frequency of Leptospira spp. and hantavirus single and double infections in small mammals from 22 sites in Thuringia, central Germany, during 2017. TULV infections were detected at 18 of 22 sites (mean prevalence 13.8%, 93/674). PUUV infections were detected at four of 22 sites (mean prevalence 1.5%, 7/471), and respective PUUV sequences formed a novel phylogenetic clade, but DOBV infections were not detected at all. Leptospira infections were detected at 21 of 22 sites with the highest overall prevalence in field voles (Microtus agrestis) with 54.5% (6/11) and common voles (Microtus arvalis) with 30.3% (205/676). Leptospira-hantavirus coinfections were found in 6.6% (44/671) of common voles but only in two of 395 bank voles. TULV and Leptospira coinfection probability in common voles was driven by individual (age) and population-level factors. Coinfections seemed to be particularly associated with sites where Leptospira spp. prevalence exceeded 35%. Future investigations should evaluate public health consequences of this strong spatial clustering of coinfections.

Published

2021

5. Multiple infections of rodents with zoonotic pathogens in Austria.

Author

Schmidt S, Essbauer SS, Mayer-Scholl A, Poppert S, Schmidt-Chanasit J, Klempa B, Henning K, Schares G, Groschup MH, Spitzenberger F, Richter D, Heckel G, and Ulrich RG

Subjects

Animals, Antibodies, Bacterial blood, Antibodies, Protozoan blood, Antibodies, Viral blood, Arvicolinae microbiology, Arvicolinae parasitology, Austria epidemiology, Bacterial Infections epidemiology, Bacterial Infections microbiology, Disease Reservoirs, Humans, Murinae microbiology, Murinae parasitology, Parasitic Diseases parasitology, Pilot Projects, Prevalence, Rodent Diseases microbiology, Rodent Diseases parasitology, Rodentia, Virus Diseases epidemiology, Virus Diseases virology, Zoonoses, Bacterial Infections veterinary, Coinfection veterinary, Parasitic Diseases epidemiology, Rodent Diseases epidemiology, Virus Diseases veterinary

Abstract

Rodents are important reservoirs for a large number of zoonotic pathogens. We examined the occurrence of 11 viral, bacterial, and parasitic agents in rodent populations in Austria, including three different hantaviruses, lymphocytic choriomeningitis virus, orthopox virus, Leptospira spp., Borrelia spp., Rickettsia spp., Bartonella spp., Coxiella burnetii, and Toxoplasma gondii. In 2008, 110 rodents of four species (40 Clethrionomys glareolus, 29 Apodemus flavicollis, 26 Apodemus sylvaticus, and 15 Microtus arvalis) were trapped at two rural sites in Lower Austria. Chest cavity fluid and samples of lung, spleen, kidney, liver, brain, and ear pinna skin were collected. We screened selected tissue samples for hantaviruses, lymphocytic choriomeningitis virus, orthopox viruses, Leptospira, Borrelia, Rickettsia, Bartonella spp., C. burnetii, and T. gondii by RT-PCR/PCR and detected nucleic acids of Tula hantavirus, Leptospira spp., Borrelia afzelii, Rickettsia spp., and different Bartonella species. Serological investigations were performed for hantaviruses, lymphocytic choriomeningitis virus, orthopox viruses, and Rickettsia spp. Here, Dobrava-Belgrade hantavirus-, Tula hantavirus-, lymphocytic choriomeningitis virus-, orthopox virus-, and rickettsia-specific antibodies were demonstrated. Puumala hantavirus, C. burnetii, and T. gondii were neither detected by RT-PCR/PCR nor by serological methods. In addition, multiple infections with up to three pathogens were shown in nine animals of three rodent species from different trapping sites. In conclusion, these results show that rodents in Austria may host multiple zoonotic pathogens. Our observation raises important questions regarding the interactions of different pathogens in the host, the countermeasures of the host's immune system, the impact of the host-pathogen interaction on the fitness of the host, and the spread of infectious agents among wild rodents and from those to other animals or humans.

Published

2014

6. Tula virus infections in the Eurasian water vole in Central Europe.

Author

Schlegel M, Kindler E, Essbauer SS, Wolf R, Thiel J, Groschup MH, Heckel G, Oehme RM, and Ulrich RG

Subjects

Animals, Europe epidemiology, Orthohantavirus classification, Hantavirus Infections epidemiology, Hantavirus Infections virology, Phylogeny, Rodent Diseases epidemiology, Arvicolinae, Orthohantavirus isolation & purification, Hantavirus Infections veterinary, Rodent Diseases virology

Abstract

Recent reports of novel hantaviruses in shrews and moles and the detection of rodent-borne hantaviruses in different rodent species raise important questions about their host range and specificity, evolution, and host adaptation. Tula virus (TULV), a European hantavirus, is believed to be slightly or non-pathogenic in humans and was initially detected in the common vole Microtus arvalis, the East European vole M. levis (formerly rossiaemeridionalis), and subsequently in other Microtus species. Here we report the first multiple RT-PCR detection and sequence analyses of TULV in the Eurasian water vole Arvicola amphibius from different regions in Germany and Switzerland. Additional novel TULV S-, M-, and L-segment sequences were obtained from M. arvalis and M. agrestis trapped in Germany at sites close to trapping sites of TULV-RT-PCR-positive water voles. Serological investigations using a recombinant TULV nucleocapsid protein revealed the presence of TULV-reactive antibodies in RT-PCR-positive and a few RT-PCR-negative water voles. Phylogenetic analyses revealed a geographical clustering of the novel S-, M-, and L-segment sequences from A. amphibius with those of M. arvalis- and M. agrestis-derived TULV lineages, and may suggest multiple TULV spillover or a potential host switch to A. amphibius. Future longitudinal studies of sympatric Microtus and Arvicola populations and experimental infection studies have to prove the potential of A. amphibius as an additional TULV reservoir host.

Published

2012