0000000000941287

AUTHOR

Lisa Zeyen

showing 4 related works from this author

Host Cell Rab GTPases in Hepatitis B Virus Infection

2018

Hepatitis B virus (HBV) is a leading cause of liver disease and is presently estimated to infect more than 250 million humans. The extremely successful spread of this virus among the human population is explained by its effective transmission strategies and its manifold particle types, including virions, empty envelopes and naked capsids. Due to its tiny genome, HBV depends on cellular machineries to thrive in infected hepatocytes. To enter, traverse and exit the cell, HBV exploits host membrane trafficking pathways, including intracellular highways directed by Rab GTPases. Here, we review recent discoveries focused on how HBV co-opts and perturbs host Rab GTPase functions with an emphasis …

0301 basic medicineautophagyPopulationvirus assemblyReviewGTPaseBiologymedicine.disease_causeVirusRab33BCell and Developmental Biology03 medical and health sciencesViral life cyclemedicineHBVeducationlcsh:QH301-705.5Hepatitis B viruseducation.field_of_studyRab effector030102 biochemistry & molecular biologyEffectorCell BiologyRab7ARab GAPCell biology030104 developmental biologyRAB7Avirus traffickinglcsh:Biology (General)RabDevelopmental BiologyFrontiers in Cell and Developmental Biology
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Hepatitis B Virus Exploits ERGIC-53 in Conjunction with COPII to Exit Cells.

2020

Several decades after its discovery, the hepatitis B virus (HBV) still displays one of the most successful pathogens in human populations worldwide. The identification and characterization of interactions between cellular and pathogenic components are essential for the development of antiviral treatments. Due to its small-sized genome, HBV highly depends on cellular functions to produce and export progeny particles. Deploying biochemical-silencing methods and molecular interaction studies in HBV-expressing liver cells, we herein identified the cellular ERGIC-53, a high-mannose-specific lectin, and distinct components of the endoplasmic reticulum (ER) export machinery COPII as crucial factor…

0301 basic medicineHepatitis B virusSec24AEndosomeHBV assemblyVesicular Transport ProteinsN-glycosylationBiologymedicine.disease_causeEndoplasmic ReticulumTransfectionGenomeESCRTArticle03 medical and health sciencesN-linked glycosylationViral life cycleCell Line TumormedicineHBVHumansCOPIICOPIIlcsh:QH301-705.5Hepatitis B virus030102 biochemistry & molecular biologyEndosomal Sorting Complexes Required for TransportEndoplasmic reticulumVirionMembrane ProteinsGeneral MedicineHepatitis BHBV egressERGIC-53Cell biologyProtein Transport030104 developmental biologyMannose-Binding Lectinslcsh:Biology (General)HepatocytesLMAN-1COP-Coated VesiclesCells
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Hepatitis B subviral envelope particles use the COPII machinery for intracellular transport via selective exploitation of Sec24A and Sec23B

2020

Hepatitis B virus (HBV) is a leading cause of liver disease. Its success as a human pathogen is related to the immense production of subviral envelope particles (SVPs) contributing to viral persistence by interfering with immune functions. To explore cellular pathways involved in SVP formation and egress, we investigated host-pathogen interactions. Yeast-based proteomics revealed Sec24A, a component of the coat protein complex II (COPII), as an interaction partner of the HBV envelope S domain. To understand how HBV co-opts COPII as a proviral machinery, we studied roles of key Sec proteins in HBV-expressing liver cells. Silencing of Sar1, Sec23, and Sec24, which promote COPII assembly conco…

Hepatitis B virusImmunology610 MedizinVesicular Transport ProteinsBiologymedicine.disease_causeProteomicsEndoplasmic ReticulumMicrobiologyCell Line03 medical and health sciencesDownregulation and upregulationTranscription (biology)610 Medical sciencesVirologyddc:570medicineGene silencingHumansProtein IsoformsSecretionRNA Small InterferingCOPII030304 developmental biologyHepatitis B virus0303 health sciences030306 microbiologyEndoplasmic reticulumBiological TransportHepatitis Bdiseases infection microbe–cell interaction proteomics virusesCell biologyHost-Pathogen InteractionsHepatocytesCOP-Coated Vesicles
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Hepatitis B Virus Subverts the Autophagy Elongation Complex Atg5-12/16L1 and Does Not Require Atg8/LC3 Lipidation for Viral Maturation

2018

ABSTRACT Previous studies indicated that hepatitis B virus (HBV) stimulates autophagy to favor its production. To understand how HBV co-opts autophagy as a proviral machinery, we studied the roles of key autophagy proteins in HBV-replicating liver cell cultures. RNA interference-mediated silencing of Atg5, Atg12, and Atg16L1, which promote autophagophore expansion and LC3 membrane conjugation, interfered with viral core/nucleocapsid (NC) formation/stability and strongly diminished virus yields. Concomitantly, the core/NC membrane association and their sorting to envelope-positive compartments were perturbed. A close inspection of the HBV/autophagy cross talk revealed that the virus depended…

0301 basic medicineHepatitis B virusATG8Autophagosome maturationImmunologyATG5Autophagy-Related ProteinsBiologymedicine.disease_causeVirus ReplicationMicrobiologyVirusAutophagy-Related Protein 5ATG1203 medical and health sciencesVirologyCell Line TumormedicineAutophagyHumansHepatitis B virusAutophagyAutophagy-Related Protein 8 FamilyHepatitis BCell biologyVirus-Cell Interactions030104 developmental biologyViral replicationInsect ScienceGene Knockdown TechniquesMultiprotein ComplexesMicrotubule-Associated ProteinsAutophagy-Related Protein 12
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