PLoS Pathogens (May 2008)

Varicellovirus UL 49.5 proteins differentially affect the function of the transporter associated with antigen processing, TAP.

  • Danijela Koppers-Lalic,
  • Marieke C Verweij,
  • Andrea D Lipińska,
  • Ying Wang,
  • Edwin Quinten,
  • Eric A Reits,
  • Joachim Koch,
  • Sandra Loch,
  • Marisa Marcondes Rezende,
  • Franz Daus,
  • Krystyna Bieńkowska-Szewczyk,
  • Nikolaus Osterrieder,
  • Thomas C Mettenleiter,
  • Mirjam H M Heemskerk,
  • Robert Tampé,
  • Jacques J Neefjes,
  • Shafiqul I Chowdhury,
  • Maaike E Ressing,
  • Frans A M Rijsewijk,
  • Emmanuel J H J Wiertz

DOI
https://doi.org/10.1371/journal.ppat.1000080
Journal volume & issue
Vol. 4, no. 5
p. e1000080

Abstract

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Cytotoxic T-lymphocytes play an important role in the protection against viral infections, which they detect through the recognition of virus-derived peptides, presented in the context of MHC class I molecules at the surface of the infected cell. The transporter associated with antigen processing (TAP) plays an essential role in MHC class I-restricted antigen presentation, as TAP imports peptides into the ER, where peptide loading of MHC class I molecules takes place. In this study, the UL 49.5 proteins of the varicelloviruses bovine herpesvirus 1 (BHV-1), pseudorabies virus (PRV), and equine herpesvirus 1 and 4 (EHV-1 and EHV-4) are characterized as members of a novel class of viral immune evasion proteins. These UL 49.5 proteins interfere with MHC class I antigen presentation by blocking the supply of antigenic peptides through inhibition of TAP. BHV-1, PRV, and EHV-1 recombinant viruses lacking UL 49.5 no longer interfere with peptide transport. Combined with the observation that the individually expressed UL 49.5 proteins block TAP as well, these data indicate that UL 49.5 is the viral factor that is both necessary and sufficient to abolish TAP function during productive infection by these viruses. The mechanisms through which the UL 49.5 proteins of BHV-1, PRV, EHV-1, and EHV-4 block TAP exhibit surprising diversity. BHV-1 UL 49.5 targets TAP for proteasomal degradation, whereas EHV-1 and EHV-4 UL 49.5 interfere with the binding of ATP to TAP. In contrast, TAP stability and ATP recruitment are not affected by PRV UL 49.5, although it has the capacity to arrest the peptide transporter in a translocation-incompetent state, a property shared with the BHV-1 and EHV-1 UL 49.5. Taken together, these results classify the UL 49.5 gene products of BHV-1, PRV, EHV-1, and EHV-4 as members of a novel family of viral immune evasion proteins, inhibiting TAP through a variety of mechanisms.