Joachim Geyer scite author profile

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.evolution | zoonosis | virome | metagenomics | reverse genetics M ore than 40% of the human population has been infected with the hepatitis B virus (HBV), giving rise to 240 million chronic HBV carriers and ca. 620,000 HBV-associated deaths annually (1). A prophylactic vaccine containing the small HBV genotype A2 surface antigen (SHB) is part of the worldwide Expanded Program on Immunization. Because of the general success of SHBs-based vaccination, global eradication of HBV has been considered achievable (2, 3). Potential for the virus to be eradicated is supported by the fact that there are no known animal reservoirs. However, recent studies addressing the distribution of pathogens related to human viruses in wild animals, including mumps-and measles-related viruses in bats, have uncovered surprising putative novel reservoirs for human-pathogenic viruses (4). SignificanceHepatitis B virus (HBV) is the prototype hepadnavirus; 40% of humans have current or past infection. In a global investigation of viral diversity in bats, we discovered three unique hepadnavirus species. The relatedness of these viruses to HBV suggests that bats might constitute ancestral sources of primate hepadnaviruse...

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Kinetics of the bile acid transporter and hepatitis B virus receptor Na+/taurocholate cotransporting polypeptide (NTCP) in hepatocytes

König

Döring

Mohr

et al. 2014

Journal of Hepatology

134

164

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The solute carrier family SLC10: more than a family of bile acid transporters regarding function and phylogenetic relationships

Geyer

Wilke

Petzinger

2006

Naunyn Schmied Arch Pharmacol

161

138

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The solute carrier family 10 (SLC10) comprises two sodium-dependent bile acid transporters, i.e. the Na + / taurocholate cotransporting polypeptide (NTCP; SLC10A1) and the apical sodium-dependent bile acid transporter (ASBT; SLC10A2). These carriers are essentially involved in the maintenance of the enterohepatic circulation of bile acids mediating the first step of active bile acid transport through the membrane barriers in the liver (NTCP) and intestine (ASBT). Recently, four new members of the SLC10 family were described and referred to as P3 (SLC10A3), P4 (SLC10A4), P5 (SLC10A5) and sodium-dependent organic anion transporter (SOAT; SLC10A6). Experimental data supporting carrier function of P3, P4, and P5 is currently not available. However, as demonstrated for SOAT, not all members of the SLC10 family are bile acid transporters. SOAT specifically transports steroid sulfates such as oestrone-3-sulfate and dehydroepiandrosterone sulfate in a sodium-dependent manner, and is considered to play an important role for the cellular delivery of these prohormones in testes, placenta, adrenal gland and probably other peripheral tissues. ASBT and SOAT are the most homologous members of the SLC10 family, with high sequence similarity (∼70%) and almost identical gene structures. Phylogenetic analyses of the SLC10 family revealed that ASBT and SOAT genes emerged from a common ancestor gene. Structure-activity relationships of NTCP, ASBT and SOAT are discussed at the amino acid sequence level.Based on the high structural homology between ASBT and SOAT, pharmacological inhibitors of the ASBT, which are currently being tested in clinical trials for cholesterollowering therapy, should be evaluated for their crossreactivity with SOAT.

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Cloning and Functional Characterization of Human Sodium-dependent Organic Anion Transporter (SLC10A6)

Geyer

Döring

Meerkamp

et al. 2007

Journal of Biological Chemistry

120

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We have cloned human sodium-dependent organic anion transporter (SOAT) cDNA, which consists of 1502 bp and encodes a 377-amino acid protein. SOAT shows 42% sequence identity to the ileal apical sodium-dependent bile acid transporter ASBT and 33% sequence identity to the hepatic Na ؉ / taurocholate-cotransporting polypeptide NTCP. Immunoprecipitation of a SOAT-FLAG-tagged protein revealed a glycosylated form at 46 kDa that decreased to 42 kDa after PNGase F treatment. SOAT exhibits a seven-transmembrane domain topology with an outside-to-inside orientation of the N-terminal and C-terminal ends. SOAT mRNA is most highly expressed in testis. Relatively high SOAT expression was also detected in placenta and pancreas. We established a stable SOAT-HEK293 cell line that showed sodium-dependent transport of dehydroepiandrosterone sulfate, estrone-3-sulfate, and pregnenolone sulfate with apparent K m values of 28.7, 12.0, and 11.3 M, respectively. Although bile acids, such as taurocholic acid, cholic acid, and chenodeoxycholic acid, were not substrates of SOAT, the sulfoconjugated bile acid taurolithocholic acid-3-sulfate was transported by SOAT-HEK293 cells in a sodium-dependent manner and showed competitive inhibition of SOAT transport with an apparent K i value of 0.24 M. Several nonsteroidal organosulfates also strongly inhibited SOAT, including 1-(-sulfooxyethyl)pyrene, bromosulfophthalein, 2-and 4-sulfooxymethylpyrene, and ␣-naphthylsulfate. Among these inhibitors, 2-and 4-sulfooxymethylpyrene were competitive inhibitors of SOAT, with apparent K i values of 4.3 and 5.5 M, respectively, and they were also transported by SOAT-HEK293 cells.

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Breed distribution of the nt230(del4) MDR1 mutation in dogs

Gramer

Leidolf

Döring

et al. 2011

The Veterinary Journal

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Joachim Geyer

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

Kinetics of the bile acid transporter and hepatitis B virus receptor Na+/taurocholate cotransporting polypeptide (NTCP) in hepatocytes

The solute carrier family SLC10: more than a family of bile acid transporters regarding function and phylogenetic relationships

Cloning and Functional Characterization of Human Sodium-dependent Organic Anion Transporter (SLC10A6)

Breed distribution of the nt230(del4) MDR1 mutation in dogs

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