Kumar, Jitendra ; Yadav, Viveka Nand ; Phulera, Swastik ; Kamble, Ashish ; Gautam, Avneesh Kumar ; Panwar, Hemendra Singh ; Sahu, Arvind ; McFadden, Grant (2017) Species Specificity of Vaccinia Virus Complement Control Protein for the Bovine Classical Pathway Is Governed Primarily by Direct Interaction of Its Acidic Residues with Factor I Journal of Virology, 91 (19). ISSN 0022-538X
Full text not available from this repository.
Official URL: http://doi.org/10.1128/JVI.00668-17
Related URL: http://dx.doi.org/10.1128/JVI.00668-17
Abstract
Poxviruses display species tropism—variola virus is a human-specific virus, while vaccinia virus causes repeated outbreaks in dairy cattle. Consistent with this, variola virus complement regulator SPICE (smallpox inhibitor of complement enzymes) exhibits selectivity in inhibiting the human alternative complement pathway and vaccinia virus complement regulator VCP (vaccinia virus complement control protein) displays selectivity in inhibiting the bovine alternative complement pathway. In the present study, we examined the species specificity of VCP and SPICE for the classical pathway (CP). We observed that VCP is ∼43-fold superior to SPICE in inhibiting bovine CP. Further, functional assays revealed that increased inhibitory activity of VCP for bovine CP is solely due to its enhanced cofactor activity, with no effect on decay of bovine CP C3-convertase. To probe the structural basis of this specificity, we utilized single- and multi-amino-acid substitution mutants wherein 1 or more of the 11 variant VCP residues were substituted in the SPICE template. Examination of these mutants for their ability to inhibit bovine CP revealed that E108, E120, and E144 are primarily responsible for imparting the specificity and contribute to the enhanced cofactor activity of VCP. Binding and functional assays suggested that these residues interact with bovine factor I but not with bovine C4(H2O) (a moiety conformationally similar to C4b). Mapping of these residues onto the modeled structure of bovine C4b-VCP-bovine factor I supported the mutagenesis data. Taken together, our data help explain why the vaccine strain of vaccinia virus was able to gain a foothold in domesticated animals.
Item Type: | Article |
---|---|
Source: | Copyright of this article belongs to American Society for Microbiology. |
ID Code: | 123290 |
Deposited On: | 13 Sep 2021 07:05 |
Last Modified: | 13 Sep 2021 07:05 |
Repository Staff Only: item control page