Profiling whole-tissue metabolic reprogramming during cutaneous poxvirus infection and clearance.

Vaccinia virus (VACV) infection induces prominent changes in host cell metabolism. Little is known about the global metabolic reprogramming that takes place in whole tissue during viral infection. Here, we performed a longitudinal metabolomics study in VACV-infected mouse skin to investigate metabolic changes in the tissue during infection. We assessed metabolites in homogenized skin of the ear pinnae over time in the presence or absence of antigen-specific T cells using untargeted mass spectrometry. VACV infection induced several significant metabolic changes in the tissue, including in the levels of nucleic acid metabolites (reflecting the impact of viral replication on the skin metabolome). Furthermore, monocyte- and antiviral T cell-produced metabolites, such as itaconic acid and glutamine, were significantly increased following infection, highlighting the immune response's contribution to the global skin metabolome. Additional RNA-Seq of infected skin tissue recapitulated metabolic changes identified by metabolomics analysis. Overall, our study reveals the metabolic balance of viral replication and the antiviral immune response in the skin, elucidating metabolic pathways that could contribute to cutaneous poxvirus control in vivo. [ABSTRACT FROM AUTHOR]