Summary The Salmonella enterica effector SteD depletes mature MHC class II (mMHCII) molecules from the surface of infected antigen-presenting cells through ubiquitination of the cytoplasmic tail of the mMHCII β chain. Here, through a genome-wide mutant screen of human antigen-presenting cells, we show that the NEDD4 family HECT E3 ubiquitin ligase WWP2 and a tumor-suppressing transmembrane protein of unknown biochemical function, TMEM127, are required for SteD-dependent ubiquitination of mMHCII. Although evidently not involved in normal regulation of mMHCII, TMEM127 was essential for SteD to suppress both mMHCII antigen presentation in mouse dendritic cells and MHCII-dependent CD4 + T cell activation. We found that TMEM127 contains a canonical PPxY motif, which was required for binding to WWP2. SteD bound to TMEM127 and enabled TMEM127 to interact with and induce ubiquitination of mature MHCII. Furthermore, SteD also underwent TMEM127- and WWP2-dependent ubiquitination, which both contributed to its degradation and augmented its activity on mMHCII. Graphical Abstract Highlights • TMEM127 and WWP2 are required for MHCII depletion by Salmonella SteD • Tumor suppressor TMEM127 is an adaptor for oncoprotein E3 ligase WWP2 • SteD interacts with TMEM127 to induce ubiquitination and degradation of mature MHCII • SteD also undergoes TMEM127- and WWP2-dependent ubiquitination Salmonella inhibits the adaptive immune response by reducing cell surface levels of mature MHC class II. Alix et al. reveal that the Salmonella effector SteD co-opts TMEM127, a tumor suppressor protein of previously unknown function. TMEM127 binds the E3 ubiquitin ligase WWP2 enabling ubiquitination and degradation of MHCII and SteD.
【저자키워드】 dendritic cells, CRISPR screen, ubiquitination, Salmonella, MHCII, SteD, WWP2, TMEM127, lysosomal degradation,