1. Establishment of a Reverse Genetics System for Studying Human Bocavirus in Human Airway Epithelia
- Author
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Jianming Qiu, Yi Li, Qinfeng Huang, Xuefeng Deng, John F. Engelhardt, Yong Luo, Fang Cheng, Ziying Yan, Liang Tang, Maria Söderlund-Venermo, Diana C.M. Lei-Butters, Weiran Shen, and Aaron Yun Chen
- Subjects
Respiratory System ,Virus Replication ,Genome ,Epithelium ,Emerging Viral Diseases ,Human bocavirus ,Cell polarity ,lcsh:QH301-705.5 ,Respiratory Tract Infections ,0303 health sciences ,3. Good health ,Female ,Research Article ,lcsh:Immunologic diseases. Allergy ,Immunology ,Molecular Sequence Data ,Genome, Viral ,Biology ,Transfection ,Microbiology ,Cell Line ,Parvoviridae Infections ,03 medical and health sciences ,Virology ,Genetics ,Viral Nucleic Acid ,Humans ,Molecular Biology ,030304 developmental biology ,Base Sequence ,030306 microbiology ,HEK 293 cells ,Inverted Repeat Sequences ,DNA replication ,Epithelial Cells ,Sequence Analysis, DNA ,biology.organism_classification ,Molecular biology ,Reverse genetics ,Viral Replication ,Reverse Genetics ,Viral replication ,lcsh:Biology (General) ,Cell culture ,DNA, Viral ,Parasitology ,lcsh:RC581-607 - Abstract
Human bocavirus 1 (HBoV1) has been identified as one of the etiological agents of wheezing in young children with acute respiratory-tract infections. In this study, we have obtained the sequence of a full-length HBoV1 genome (including both termini) using viral DNA extracted from a nasopharyngeal aspirate of an infected patient, cloned the full-length HBoV1 genome, and demonstrated DNA replication, encapsidation of the ssDNA genome, and release of the HBoV1 virions from human embryonic kidney 293 cells. The HBoV1 virions generated from this cell line-based production system exhibits a typical icosahedral structure of approximately 26 nm in diameter, and is capable of productively infecting polarized primary human airway epithelia (HAE) from the apical surface. Infected HAE showed hallmarks of lung airway-tract injury, including disruption of the tight junction barrier, loss of cilia and epithelial cell hypertrophy. Notably, polarized HAE cultured from an immortalized airway epithelial cell line, CuFi-8 (originally derived from a cystic fibrosis patient), also supported productive infection of HBoV1. Thus, we have established a reverse genetics system and generated the first cell line-based culture system for the study of HBoV1 infection, which will significantly advance the study of HBoV1 replication and pathogenesis., Author Summary Human bocavirus 1 (HBoV1) has been identified as one of the etiological agents of wheezing in young children with acute respiratory-tract infections. HBoV1 productively infects polarized primary human airway epithelia. However, no cell lines permissive to HBoV1 infection have yet been established. More importantly, the sequences at both ends of the HBoV1 genome have remained unknown. We have resolved both of these issues in this study. We have sequenced a full-length HBoV1 genome and cloned it into a plasmid. We further demonstrated that this HBoV1 plasmid replicated and produced viruses in human embryonic kidney 293 cells. Infection of these HBoV1 progeny virions produced obvious cytopathogenic effects in polarized human airway epithelia, which were represented by disruption of the epithelial barrier. Moreover, we identified an airway epithelial cell line supporting HBoV1 infection, when it was polarized. This is the first study to obtain the full-length HBoV1 genome, to demonstrate pathogenesis of HBoV1 infection in human airway epithelia, and to identify the first cell line to support productive HBoV1 infection.
- Published
- 2012