Expansion of human NK-22 cells with IL-7, IL-2, and IL-1β reveals intrinsic functional plasticity

Abstract

Natural killer-22 (NK-22) cells are a human NK cell subset situated in mucosal-associated lymphoid tissues that specialize in IL-22 secretion in response to IL-23. Here we investigated the cytokine requirements for NK-22 cell expansion. IL-7 maintained the sur-vival of NK-22 cells and IL-22 production in response to IL-23 but was insufficient to induce robust expansion. Proliferation of NK-22 cells was increased markedly by adding either IL-1β or IL-2 to IL-7 and was even stronger in the presence of IL-1β plus IL-2. In contrast to IL-7, continuous culture in IL-1β and IL-2 modified NK-22 cytokine profiles. IL-1β promoted constitutive IL-22 secretion rather than acute IL-22 production in response to IL-23 and induced IL-17 in some cells. IL-2 reduced secretion of IL-22 and IL-17, increasing production of IFN-γ and leukemia inhibitory factor. Functional deviation toward IFN-γ production also was induced by continuous culture in IL-23. These results demonstrate the functional plasticity of NK-22 cells, which may allow flexible responses to different pathogens. Finally, we found that NK-22 cells released the B-cell survival factor, B-cell activating factor belonging to the TNF family (BAFF), suggesting a potential role of NK-22 cells in promoting B-cell–mediated mucosal immunity.