PLoS Pathogens (Jan 2012)

Antibody inhibition of a viral type 1 interferon decoy receptor cures a viral disease by restoring interferon signaling in the liver.

  • Ren-Huan Xu,
  • Daniel Rubio,
  • Felicia Roscoe,
  • Tracy E Krouse,
  • Mary Ellen Truckenmiller,
  • Christopher C Norbury,
  • Paul N Hudson,
  • Inger K Damon,
  • Antonio Alcamí,
  • Luis J Sigal

DOI
https://doi.org/10.1371/journal.ppat.1002475
Journal volume & issue
Vol. 8, no. 1
p. e1002475

Abstract

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Type 1 interferons (T1-IFNs) play a major role in antiviral defense, but when or how they protect during infections that spread through the lympho-hematogenous route is not known. Orthopoxviruses, including those that produce smallpox and mousepox, spread lympho-hematogenously. They also encode a decoy receptor for T1-IFN, the T1-IFN binding protein (T1-IFNbp), which is essential for virulence. We demonstrate that during mousepox, T1-IFNs protect the liver locally rather than systemically, and that the T1-IFNbp attaches to uninfected cells surrounding infected foci in the liver and the spleen to impair their ability to receive T1-IFN signaling, thus facilitating virus spread. Remarkably, this process can be reversed and mousepox cured late in infection by treating with antibodies that block the biological function of the T1-IFNbp. Thus, our findings provide insights on how T1-IFNs function and are evaded during a viral infection in vivo, and unveil a novel mechanism for antibody-mediated antiviral therapy.