Thus, different GCs may regulate NK cell growth and survival differently. NK cells. Moreover, NK cells treated with cytokines IL-2 and IL-12?+?Dex, followed by a 7-day rest, displayed an increased IFN- response upon restimulation. Thus, there is a dichotomic effect of GCs on NK cell function dependent on the local cytokine milieu; the NK cell effector response is usually in the beginning suppressed, but, dependent on the cytokines present, Dex can also augment the proliferation, survival, and reactivity of human NK cells in a secondary recall response. with IL-2 to support survival. Cells were subsequently restimulated with IL-12?+?IL-18, or with IL-2 as a control (Physique ?(Figure6A).6A). The initial activation with IL-2?+?IL-12 or IL-12?+?IL-15?+?IL-18 triggered the secretion of IFN-, an effect that Dex potently suppressed (Physique ?(Figure66B). Open in a separate window Physique 6 Dexamethasone augments natural killer (NK) cell secondary recall responses. (A) Schematic of the experimental approach for the preactivation of main human NK (pNK) cells, then restimulation with interleukin-12 (IL-12)?+?interleukin-18 (IL-18). (BCE) pNK cells were initially treated, first with DMSO, as a vehicle control, or Dex (100?nM) for 1?h, then stimulated with interleukin-2 (IL-2) (200?U/ml), IL-2 (200?U/ml)?+?IL-12 (10?ng/ml), or IL-12 (10?ng/ml)?+?interleukin-15 (IL-15) (5?ng/ml)?+?IL-18 (100?ng/ml) for 5?days. Cells were then washed three times and cultured for 7?days with IL-2 (200?U/ml) to support survival. After 7?days, cells were washed and, either, left without restimulation (no restimulation; IL-2, 200?U/ml) or restimulated with IL-12 (10?ng/ml)?+?IL-18 (100?ng/ml), for 18?h. (B) Following Rabbit Polyclonal to SLC6A1 the initial treatment, cell supernatant was assessed for interferon- (IFN-) production PU 02 by enzyme-linked immunosorbent assay (ELISA) to confirm cellular activation. Data (mean??SD) depict nine independent PU 02 donors. Samples are compared by unpaired, two-tailed Students promoting their growth and survival. For this, following preactivation and a 7-day rest period (Physique ?(Figure6A),6A), pNK cells were resuspended at matched densities prior to restimulation (Figure ?(Figure6E).6E). Again, IFN- release was minimal without restimulation (No restimulation, Physique ?Physique6E),6E), while the production of IFN- was triggered by IL-12?+?IL-18 (Restimulation, Physique ?Physique6E).6E). As observed above, initial treatment with IL-2?+?IL-12 Dex promoted an enhanced production of IFN- upon restimulation when compared to the restimulated control group (Physique ?(Figure6E).6E). Taken together, these PU 02 results establish that GCs augment both the growth and reactivity of pNK cells to elicit an enhanced secondary recall response. Overall, these data display a dichotomy of GC action on pNK cell stimulated with IL-2?+?IL-12: initially suppressing the immune response, but paradoxically enhancing cell survival, proliferation, and reactivity. Pre-exposure to GCs in combination with IL-2?+?IL-12 subsequently primes pNK cells for an enhanced recall immune response. Discussion Due to their anti-inflammatory, pro-apoptotic, and antiemetic properties, GCs have been widely used in the treatment of inflammatory disorders and malignancy. For example, methylprednisolone (27) and shown here, Dex, inhibits IL-2- or IL-15-mediated proliferation of NK cells. However, GCs have also been reported to enhance cell proliferation and survival (32). Hydrocortisone has been described to increase the proliferation and survival of CD56+ cells when cultured with either IL-2 or IL-15, leading to the enhanced growth of NK cells (32). Further clarifying the effects of GCs on NK cell functions could have important consequences in the way malignancy and inflammatory disorders are managed clinically. Here, we establish a obvious dichotomy in the action of Dex, in the beginning suppressing NK cell activity while, dependent on the local cytokine milieu, conferring an enhanced functional response after restimulation. Previous research has shown that another clinically important corticosteroid, methylprednisolone, conferred different effects on NK cells dependent on whether or not the cells were cultured in IL-2 or IL-15 (27). Specifically, NK cell survival was reduced by methylprednisolone for PU 02 cells cultured in IL-2 but not IL-15. By contrast, we found that NK cell survival PU 02 was worsened by Dex for cells cultured in IL-15, not IL-2. Thus, different GCs may regulate NK cell growth and survival differently. To test this possibility directly, further work is required using equipotent doses of different GR ligands and matched NK cell culture conditions. Our data show that Dex.