An Interspecies Analysis Reveals Molecular Construction Principles of Interleukin 27

Interleukin 27 (IL-27) is a cytokine that regulates inflammatory responses. It is composed of an α subunit (IL-27α) and a β subunit (EBI3), which together form heterodimeric IL-27. Despite this general principle, IL-27 from different species shows distinct characteristics: Human IL-27α is not secreted autonomously while EBI3 is. In mice, the subunits show a reciprocal behavior. The molecular basis and the evolutionary conservation of these differences have remained unclear. They are biologically important, however, since secreted IL-27 subunits can act as cytokines on their own. Here, we show that formation of a single disulfide bond is an evolutionary conserved trait, which determines secretion-competency of IL-27α. Furthermore, combining cell-biological with computational approaches, we provide detailed structural insights into IL-27 heterodimerization and find that it relies on a conserved interface. Lastly, our study reveals a hitherto unknown construction principle of IL-27: one secretion-competent subunit generally pairs with one that depends on the other to induce its secretion. Taken together, these findings significantly extend our understanding of IL-27 biogenesis as a key cytokine and highlight how protein assembly can influence immunoregulation.