0000000000872038

AUTHOR

F Unckell

showing 2 related works from this author

Generation and neutralization of pseudovirions of human papillomavirus type 33

1997

Since human papillomaviruses (HPV) cannot be propagated in cell culture, the generation of infectious virions in vitro is a highly desirable goal. Here we report that pseudovirions can be generated by the assembly of virus-like particles (VLPs) in COS-7 cells containing multiple copies of a marker plasmid. Using recombinant vaccinia viruses, we have obtained spherical VLPs of HPV type 33 (HPV-33) which fractionate into heavy and light VLPs in cesium chloride density gradients. VLPs in the heavy fraction (1.31 g/cm3) carry the plasmid in DNase-resistant form and are capable of transferring the genetic marker located on the plasmid to COS-7 cells in a DNase-resistant way (pseudoinfection). Th…

virusesImmunologyBiologyAntibodies Viralcomplex mixturesMicrobiologyNeutralizationlaw.inventionchemistry.chemical_compoundCapsidPlasmidNeutralization TestslawVirologyAnimalsDeoxyribonuclease IHumansAntigens ViralPapillomaviridaeAntiserumVirus AssemblyVirionvirus diseasesOncogene Proteins ViralVirologyMolecular biologyIn vitroTiterchemistryCapsidInsect ScienceCOS CellsDNA ViralRecombinant DNACapsid ProteinsDNAResearch ArticleJournal of Virology
researchProduct

Binding and internalization of human papillomavirus type 33 virus-like particles by eukaryotic cells

1995

Infection of cells by human papillomaviruses (HPVs) associated with malignant genital lesions has not been studied because of the lack of an in vitro system and the unavailability of virions. We have now used virus-like particles (VLPs) of HPV type 33 to analyze the initial events in the interaction of the HPV capsid with cell lines. Binding of VLPs to HeLa cells was observed in biochemical assays and by immunofluorescence. VLP binding was inhibited by antisera raised against VLPs but not by monoclonal antibodies recognizing either L1 or L2 epitopes accessible on VLPs. Under saturating conditions, approximately 2 x 10(4) VLPs were bound per cell, with a dissociation constant of about 100 pM…

virusesImmunoelectron microscopyImmunologyBiologyAntibodies ViralMembrane Fusioncomplex mixturesMicrobiologyVirusEpitopeCell LineMiceVirologyAnimalsHumansMicroscopy ImmunoelectronPapillomaviridaeCapsomereVirionMembrane Proteinsvirus diseasesLipid bilayer fusionbiochemical phenomena metabolism and nutritionMolecular biologyEndocytosisEndocytic vesicleCapsidCell cultureInsect ScienceResearch ArticleJournal of Virology
researchProduct