ReviewOxidation matters: The ubiquitin proteasome system connects innate immune mechanisms with MHC class I antigen presentation

During innate immune responses the delicate balance of protein synthesis, quality control and degradation is severely challenged by production of radicals and/or the massive synthesis of pathogen proteins. The regulated degradation of ubiquitin-tagged proteins by the ubiquitin proteasome system (UPS) represents one major pathway for the maintenance of cellular proteostasis and regulatory processes under these conditions. In addition, MHC class I antigen presentation is strictly dependent on an appropriate peptide supply by the UPS to efficiently prime CD8+ T cells and to initiate an adaptive immune response. We here discuss recent efforts in defining the link between innate immune mechanisms like cytokine and ROS production, the induction of an efficient adaptive immune response and the specific involvement of the UPS therein. Cytokines and/or infections induce translation and the production of free radicals, which in turn confer oxidative damage to nascent as well as folded proteins. In parallel, the same signaling cascades are able to accelerate the protein turnover by the concomitantly induced ubiquitin conjugation and degradation of such damaged polypeptides by immunoproteasomes. The ability of immunoproteasomes to efficiently degrade such oxidant-damaged ubiquitylated proteins protects cells from accumulating toxic ubiquitin-rich aggregates. At the same time, this innate immune mechanism facilitates a sufficient peptide supply for MHC class I antigen presentation and connects it to initiation of adaptive immunity.

► Cytokines and/or infections induce translation and the production of free radicals. ► Free radicals confer oxidative damage to nascent as well as folded proteins. ► By degrading oxidant-damaged ubiquitylated proteins the UPS protects cells from accumulating ubiquitin-rich aggregates. ► Radical production in target cells gives the immune system access to structural proteins from viruses to ensure their antigen processing.