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Title: Vaccinia Virus Phospholipase Protein F13 Promotes Rapid Entry of Extracellular Virions into Cells. Author: Bryk P, Brewer MG, Ward BM. Journal: J Virol; 2018 Jun 01; 92(11):. PubMed ID: 29540596. Abstract: The vaccinia virus protein F13, encoded by the F13L gene, is conserved across the subfamily Chordopoxvirinae and is critical among orthopoxviruses to produce the wrapped form of virus that is required for cell-to-cell spread. F13 is the major envelope protein on the membrane of extracellular forms of virus; however, it is not known if F13 is required in steps postwrapping. In this report, we utilize two temperature-sensitive vaccinia virus mutants from the Condit collection of temperature-sensitive viruses whose small plaque phenotypes have been mapped to the F13L gene. Despite the drastic reduction in plaque size, the temperature-sensitive viruses were found to produce levels of extracellular virions similar to those of the parental strain, Western Reserve (WR), at the permissive and nonpermissive temperatures, suggesting that they are not defective in extracellular virion formation. Analyses of extracellular virions produced by one temperature-sensitive mutant found that those produced at the nonpermissive temperature had undetectable levels of F13 and bound cells with efficiency similar to that of WR but displayed delayed cell entry kinetics. Additionally, low-pH treatment of cells bound by extracellular virions produced at the nonpermissive temperature by the temperature-sensitive reporter virus was unable to overcome a block in infection by bafilomycin A1, suggesting that these virions display increased resistance to dissolution of the extracellular virion envelope. Taken together, our results suggest that F13 plays a role both in the formation of extracellular virions and in the promotion of their rapid entry into cells by enhancing the sensitivity of the membrane to acid-induced dissolution.IMPORTANCE Vaccinia virus (VACV) is an orthopoxvirus and produces two infectious forms, mature virions (MV) and extracellular virions (EV). EV are derived from MV and contain an additional membrane that must first be removed prior to cell entry. F13 is critical for the formation of EV, but a postenvelopment role has not been described. Here, two temperature-sensitive VACV mutants whose deficiencies were previously mapped to the F13L locus are characterized. Both viruses produced EV at the nonpermissive temperature at levels similar to those of a virus that has F13L, yet they had a small plaque phenotype and rate of spread similar to that of an F13L deletion virus. F13 was undetectable on the EV membrane at the nonpermissive temperature, and these EV exhibited delayed cell entry kinetics compared to EV containing F13. This study is the first to conclusively demonstrate a novel role for F13 in cell entry of the EV form of the virus.[Abstract] [Full Text] [Related] [New Search]