Evaluation of Vaccinia Virus Infection in Mice Using Two-Reporter Recombinant Virus.

The family Poxviridae comprises multiple viruses with large double-stranded (ds) DNA genomes that can infect numerous vertebrate and invertebrate hosts, including humans. The development of genetic engineering methods for Vaccinia virus (VACV), the prototypic member in the family, have allowed the manipulation of the genomes of poxviruses for the generation of recombinant (r)VACV expressing easily traceable luciferase and/or fluorescent reporter genes. These recombinant viruses have significantly contributed to progress in the field of poxvirus research and accelerated the development of novel prophylactic vaccines and therapeutic antiviral treatments. Recently, we described two reporter rVACV expressing luciferase (Nluc) and fluorescent (GFP or Scarlet) proteins to easily track viral infections in different systems, overcoming the limitations associated with the use of rVACV expressing a single luciferase or fluorescent reporter gene. Here, we describe the experimental procedures to carry out in vitro, in vivo and ex vivo studies using these novel bireporter-expressing rVACV, which also represent an excellent option to study the biology of VACV, including the use of these reporter viruses for testing new antivirals and vaccines, using cultured cells and/or well-characterized animal models of infection.
(© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)