Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.12.248252v1?rss=1 Authors: Kiritsy, M. C., Ankley, L. M., Trombley, J. D., Huizinga, G. P., Lord, A. E., Orning, P., Elling, R., Fitzgerald, K. A., Olive, A. Abstract: Cytokine-mediated activation of host immunity is central to the control of pathogens. A key cytokine in protective immunity is interferon-gamma (IFN{gamma}), which is a potent activator of antimicrobial and immunomodulatory effectors within the host. A major role of IFN{gamma} is to induce major histocompatibility complex class II molecules (MHCII) on the surface of cells, which is required for CD4+ T cell activation. Despite its central role in host immunity, the complex and dynamic regulation of IFN{gamma}-induced MHCII is not well understood. Here, we integrated functional genomics and transcriptomics to comprehensively define the genetic control of IFN{gamma}-mediated MHCII surface expression in macrophages. Using a genome-wide CRISPR-Cas9 library we identified genes that control MHCII surface expression, many of which have yet to be associated with MHCII. Mechanistic studies uncovered two parallel pathways of IFN{gamma}-mediated MHCII control that require the multifunctional glycogen synthase kinase 3 beta (GSK3{beta}) or the mediator complex subunit MED16. Both pathways are necessary for IFN{gamma}-mediated induction of the MHCII transactivator CIITA, MHCII expression, and CD4+ T cell activation. Using transcriptomic analysis, we defined the regulons controlled by GSK3{beta} and MED16 in the presence and absence of IFN{gamma} and identified unique networks of the IFN{gamma}-mediated transcriptional landscape that are controlled by each gene. Our analysis suggests GSK3{beta} and MED16 control distinct aspects of the IFN{gamma}-response and are critical for macrophages to respond appropriately to IFN{gamma}. Our results define previously unappreciated regulation of MHCII expression that is required to control CD4+ T cell responses by macrophages. These discoveries will aid in our basic understanding of macrophage-mediated immunity and will shed light on mechanisms of failed adaptive responses pervasive in infectious disease, autoimmunity, and cancer. Copy rights belong to original authors. Visit the link for more info