Translocation of the papillomavirus L2/vDNA complex across the limiting membrane requires the onset of mitosis

Autor: Janice A. Chapman, Ariana R. Manson, Marcela Suarez-Berumen, Shuaizhi Li, Christine M. Calton, Ricardo A. Bernal, Samuel K. Campos, Matthew P. Bronnimann, Tatum R. Williamson, Sudheer K. Molugu
Rok vydání: 2017
Předmět:
Keratinocytes
0301 basic medicine
Gene Expression
Chromosomal translocation
Biochemistry
Viral Packaging
Cell Fusion
Small interfering RNAs
Cell Cycle and Cell Division
Post-Translational Modification
lcsh:QH301-705.5
Anaphase
Human papillomavirus 16
Chromosome Biology
Chromatin binding
Chromatin
Cell biology
Nucleic acids
Cell Processes
Epigenetics
Research Article
trans-Golgi Network
lcsh:Immunologic diseases. Allergy
Cell Physiology
Immunology
Mitosis
Endosomes
Genome
Viral

Biology
Microbiology
Cell Line
03 medical and health sciences
Prophase
Virology
Genetics
Humans
Biotinylation
Prometaphase
Non-coding RNA
Cell Cycle Inhibitors
Molecular Biology
Metaphase
Cell Nucleus
Papillomavirus Infections
Virion
Biology and Life Sciences
Proteins
Biological Transport
Cell Biology
Cell Cycle Checkpoints
Oncogene Proteins
Viral

Virus Internalization
Viral Replication
Gene regulation
Viral Tropism
030104 developmental biology
lcsh:Biology (General)
DNA
Viral

Mutation
RNA
Capsid Proteins
Parasitology
lcsh:RC581-607
Zdroj: PLoS Pathogens, Vol 13, Iss 5, p e1006200 (2017)
PLoS Pathogens
ISSN: 1553-7374
Popis: The human papillomavirus type 16 (HPV16) L2 protein acts as a chaperone to ensure that the viral genome (vDNA) traffics from endosomes to the trans-Golgi network (TGN) and eventually the nucleus, where HPV replication occurs. En route to the nucleus, the L2/vDNA complex must translocate across limiting intracellular membranes. The details of this critical process remain poorly characterized. We have developed a system based on subcellular compartmentalization of the enzyme BirA and its cognate substrate to detect membrane translocation of L2-BirA from incoming virions. We find that L2 translocation requires transport to the TGN and is strictly dependent on entry into mitosis, coinciding with mitotic entry in synchronized cells. Cell cycle arrest causes retention of L2/vDNA at the TGN; only release and progression past G2/M enables translocation across the limiting membrane and subsequent infection. Microscopy of EdU-labeled vDNA reveals a rapid and dramatic shift in vDNA localization during early mitosis. At late G2/early prophase vDNA egresses from the TGN to a pericentriolar location, accumulating there through prometaphase where it begins to associate with condensed chromosomes. By metaphase and throughout anaphase the vDNA is seen bound to the mitotic chromosomes, ensuring distribution into both daughter nuclei. Mutations in a newly defined chromatin binding region of L2 potently blocked translocation, suggesting that translocation is dependent on chromatin binding during prometaphase. This represents the first time a virus has been shown to functionally couple the penetration of limiting membranes to cellular mitosis, explaining in part the tropism of HPV for mitotic basal keratinocytes.
Author summary Human papillomaviruses (HPVs) are the most prevalent sexually transmitted infections and are responsible for about 5% of total human cancers worldwide. These small DNA viruses must enter cells and deliver their genomes to the host cell nucleus to successfully establish an infection. A major barrier that HPVs and other non-enveloped viruses must overcome is the limiting membrane—the host cellular membrane through which the viral genome must be transported en route to the nucleus. Here we have developed a novel enzyme-dependent assay to study what is called penetration or translocation of the limiting membrane by the HPV16 minor capsid protein L2. We find that translocation is strictly dependent on host cell division, specifically progression into mitosis, and occurs post trans-Golgi-network localization. After exiting the trans-Golgi network the viral genomes are seen decorating the segregating mitotic chromosomes, to ensure the equal partitioning into and infection of the daughter cells. The remarkable timing with, and absolute dependence of, this event on mitosis likely dictates the natural tropism of these viruses for the replicating basal keratinocytes of differentiating epithelial tissues. Further work will be necessary to fully understand the molecular mechanisms of this extraordinary mitosis-dependent phenomenon.
Databáze: OpenAIRE