Expression of Secreted Cytokine and Chemokine Inhibitors by Ectromelia Virus

Abstract

ABSTRACT The production of secreted proteins that bind cytokines and block their activity has been well characterized as an immune evasion strategy of the orthopoxviruses vaccinia virus (VV) and cowpox virus (CPV). However, very limited information is available on the expression of similar cytokine inhibitors by ectromelia virus (EV), a virulent natural mouse pathogen that causes mousepox. We have characterized the expression and binding properties of three major secreted immunomodulatory activities in 12 EV strains and isolates. Eleven of the 12 EVs expressed a soluble, secreted 35-kDa viral chemokine binding protein with properties similar to those of homologous proteins from VV and CPV. All of the EVs expressed soluble, secreted receptors that bound to mouse, human, and rat tumor necrosis factor alpha. We also detected the expression of a soluble, secreted interleukin-1β (IL-1β) receptor (vIL-1βR) by all of the EVs. EV differed from VV and CPV in that binding of human 125 I-IL-1β to the EV vIL-1βR could not be detected. Nevertheless, the EV vIL-1βR prevented the interaction of human and mouse IL-1β with cellular receptors. There are significant differences in amino acid sequence between the EV vIL-1βR and its VV and CPV homologs which may account for the results of the binding studies. The conservation of these activities in EV suggests evolutionary pressure to maintain them in a natural poxvirus infection. Mousepox represents a useful model for the study of poxvirus pathogenesis and immune evasion. These findings will facilitate future study of the role of EV immunomodulatory factors in the pathogenesis of mousepox.