Your search keyword '"Rasche, Andrea"' showing total 5 results

1. Evolutionary origins of hepatitis A virus in small mammals

Author

the Hepatovirus Ecology Consortium, Drexler, Jan Felix, Corman, Victor M., Lukashev, Alexander N., van den Brand, Judith M. A., Gmyl, Anatoly P., Brünink, Sebastian, Rasche, Andrea, Seggewiβ, Nicole, Feng, Hui, Leijten, Lonneke M., Vallo, Peter, Kuiken, Thijs, Dotzauer, Andreas, Ulrich, Rainer G., Lemon, Stanley M., and Drosten, Christian

Published

2015

2. Interaction between MHC diversity and constitution, gut microbiota and Astrovirus infections in a neotropical bat.

Author

Fleischer, Ramona, Schmid, Dominik W., Wasimuddin, Brändel, Stefan D., Rasche, Andrea, Corman, Victor M., Drosten, Christian, Tschapka, Marco, and Sommer, Simone

Subjects

BATS, GUT microbiome, COMMENSALISM, MAJOR histocompatibility complex, ANIMAL populations, MICROBIAL diversity, DISEASE susceptibility

Abstract

Astroviruses (AstVs) infect numerous mammalian species including reservoirs such as bats. Peptides encoded by the genes of the highly polymorphic Major Histocompatibility Complex (MHC) form the first line of host defence against pathogens. Aside from direct involvement in mounting adaptive immune responses, MHC class II genes are hypothesized to regulate gut commensal diversity and shape the production of immune‐modulatory substances by microbes, indirectly affecting host susceptibility. Despite initial empirical evidence for the link between host MHC and the microbiota, associations among these factors remain largely unknown. To fill this gap, we examined MHC allelic diversity and constitution, the gut bacterial community and abundance pattern of a wild population of a neotropical bat (Artibeus jamaicensis) challenged by AstV infections. First, we show an age‐dependent relationship between the host MHC class II diversity and constitution and the gut microbiota in AstV‐uninfected bats. Crucially, these associations changed in AstV‐infected bats. Additionally, we identify changes in the abundance of specific bacterial taxa linked to the presence of certain MHC supertypes and AstV infection. We suggest changes in the microbiota to be either a result of AstV infection or the MHC‐mediated modulation of microbial communities. The latter could subsequently affect microbe‐mediated immunity and resistance against AstV infection. Our results emphasize that the reciprocal nature of host immune genetics, gut microbial diversity and pathogen infection require attention, which are particularly important given their repercussions for disease susceptibility and severity in wild animal populations with a history of zoonotic spillover and frequent human contact. [ABSTRACT FROM AUTHOR]

Published

2022

3. Highly diversified shrew hepatitis B viruses corroborate ancient origins and divergent infection patterns of mammalian hepadnaviruses.

Author

Rasche, Andrea, Lehmann, Felix, König, Alexander, Goldmann, Nora, Corman, Victor M., Moreira-Soto, Andres, Geipel, Andreas, van Riel, Debby, Vakulenko, Yulia A., Sander, Anna-Lena, Niekamp, Hauke, Kepper, Ramona, Schlegel, Mathias, Akoua-Koffi, Chantal, Souza, Breno F. C. D., Sahr, Foday, Olayemi, Ayodeji, Schulze, Vanessa, Petraityte-Burneikiene, Rasa, and Kazaks, Andris

Subjects

*HEPATITIS viruses, *SHREWS, *HEPATITIS associated antigen, *HEPATITIS B virus, *IN situ hybridization

Abstract

Shrews, insectivorous small mammals, pertain to an ancient mammalian order. We screened 693 European and African shrews for hepatitis B virus (HBV) homologs to elucidate the enigmatic genealogy of HBV. Shrews host HBVs at low prevalence (2.5%) across a broad geographic and host range. The phylogenetically divergent shrew HBVs comprise separate species termed crowned shrew HBV (CSHBV) and musk shrew HBV (MSHBV), each containing distinct genotypes. Recombination events across host orders, evolutionary reconstructions, and antigenic divergence of shrew HBVs corroborated ancient origins of mammalian HBVs dating back about 80 million years. Resurrected CSHBV replicated in human hepatoma cells, but human- and tupaia-derived primary hepatocytes were resistant to hepatitis D viruses pseudotyped with CSHBV surface proteins. Functional characterization of the shrew sodium taurocholate cotransporting polypeptide (Ntcp), CSHBV/MSHBV surface peptide binding patterns, and infection experiments revealed lack of Ntcp-mediated entry of shrew HBV. Contrastingly, HBV entry was enabled by the shrew Ntcp. Shrew HBVs universally showed mutations in their genomic preCore domains impeding hepatitis B e antigen (HBeAg) production and resembling those observed in HBeAg-negative human HBV. Deep sequencing and in situ hybridization suggest that HBeAg-negative shrew HBVs cause intense hepatotropic monoinfections and low within-host genomic heterogeneity. Geographical clustering and low MSHBV/CSHBV-specific seroprevalence suggest focal transmission and high virulence of shrew HBVs. HBeAg negativity is thus an ancient HBV infection pattern, whereas Ntcp usage for entry is not evolutionarily conserved. Shrew infection models relying on CSHBV/MSHBV revertants and human HBV will allow comparative assessments of HBeAg-mediated HBV pathogenesis, entry, and species barriers. [ABSTRACT FROM AUTHOR]

Published

2019

4. Evolutionary origins of hepatitis A virus in small mammals.

Author

Drexler, Jan Felix, Corman, Victor M., Lukashev, Alexander N., van den Brand, Judith M. A., Gmyl, Anatoly P., Brünink, Sebastian, Rasche, Andrea, Seggewiβ, Nicole, Feng, Hui, Leijten, Lonneke M., Vallo, Peter, Kuiken, Thijs, Dotzauer, Andreas, Ulrich, Rainer G., Lemon, Stanley M., and Drosten, Christian

Subjects

HEPATITIS A virus, CAPSIDS, PICORNAVIRUSES, N-terminal residues, VIRAL ecology

Abstract

Hepatitis A virus (HAV) is an ancient and ubiquitous human pathogen recovered previously only from primates. The sole species of the genus Hepatovirus, existing in both enveloped and nonenveloped forms, and with a capsid structure intermediate between that of insect viruses and mammalian picornaviruses, HAV is enigmatic in its origins. We conducted a targeted search for hepatoviruses in 15,987 specimens collected from 209 small mammal species globally and discovered highly diversified viruses in bats, rodents, hedgehogs, and shrews, which by pairwise sequence distance comprise 13 novel Hepatovirus species. Near-complete genomes from nine of these species show conservation of unique hepatovirus features, including predicted internal ribosome entry site structure, a truncated VP4 capsid protein lacking N-terminal myristoylation, a carboxyl-terminal pX extension of VP1, VP2 late domains involved in membrane envelopment, and a cis-acting replication element within the 3Dpol sequence. Antibodies in some bat sera immunoprecipitated and neutralized human HAV, suggesting conservation of critical antigenic determinants. Limited phylogenetic cosegregation among hepatoviruses and their hosts and recombination patterns are indicative of major hepatovirus host shifts in the past. Ancestral state reconstructions suggest a Hepatovirus origin in small insectivorous mammals and a rodent origin of human HAV. Patterns of infection in small mammals mimicked those of human HAV in hepatotropism, fecal shedding, acute nature, and extinction of the virus in a closed host population. The evolutionary conservation of hepatovirus structure and pathogenesis provide novel insight into the origins of HAV and highlight the utility of analyzing animal reservoirs for risk assessment of emerging viruses. [ABSTRACT FROM AUTHOR]

Published

2015

5. Bats carry pathogenic hepadnaviruses antigenically related to hepatitis B virus and capable of infecting human hepatocytes.

Author

Drexler, Jan Felix, Geipel, Andreas, König, Alexander, Corman, Victor M., van Riel, Debby, Leijten, Lonneke M., Bremer, Corinna M., Rasche, Andrea, Cottontail, Veronika M., Maganga, Gael D., Schlegel, Mathias, Müller, Marcel A., Adam, Alexander, Klose, Stefan M., Borges Carneiro, Aroldo José, Stöcker, Andreas, Franke, Carlos Roberto, Gloza-Rausch, Florian, Geyer, Joachim, and Annan, Augustina

Subjects

HEPATITIS B virus, BATS as carriers of disease, HEPATITIS B, HEPATITIS viruses, LIVER cells, PATIENTS

Abstract

The hepatitis B virus (HBV), family Hepadnaviridae, is one of most relevant human pathogens. HBV origins are enigmatic, and no zoonotic reservoirs are known. Here, we screened 3,080 specimens from 54 bat species representing 11 bat families for hepadnaviral DNA. Ten specimens (0.3%) from Panama and Gabon yielded unique hepadnaviruses in coancestral relation to HBV. Full genome sequencing allowed classification as three putative orthohepadnavirus species based on genome lengths (3,149-3,377 nt), presence of middle HBV surface and X-protein genes, and sequence distance criteria. Hepatic tropism in bats was shown by quantitative PCR and in situ hybridization. Infected livers showed histopathologic changes compatible with hepatitis. Human hepatocytes transfected with all three bat viruses cross-reacted with sera against the HBV core protein, concordant with the phylogenetic relatedness of these hepadnaviruses and HBV. One virus from Uroderma bilobatum, the tent-making bat, cross-reacted with monoclonal antibodies against the HBV antigenicity determining S domain. Up to 18.4% of bat sera contained antibodies against bat hepadnaviruses. Infectious clones were generated to study all three viruses in detail. Hepatitis D virus particles pseudotyped with surface proteins of U. bilobatum HBV, but neither of the other two viruses could infect primary human and Tupaia belangeri hepatocytes. Hepatocyte infection occurred through the human HBV receptor sodium taurocholate cotransporting polypeptide but could not be neutralized by sera from vaccinated humans. Antihepadnaviral treatment using an approved reverse transcriptase inhibitor blocked replication of all bat hepadnaviruses. Our data suggest that bats may have been ancestral sources of primate hepadnaviruses. The observed zoonotic potential might affect concepts aimed at eradicating HBV. [ABSTRACT FROM AUTHOR]

Published

2013