Cytokine therapy reverses NK cell anergy in MHC-deficient tumors
Michele Ardolino, … , K. Christopher Garcia, David H. Raulet
Michele Ardolino, … , K. Christopher Garcia, David H. Raulet
Published October 20, 2014
Citation Information: J Clin Invest. 2014;124(11):4781-4794. https://doi.org/10.1172/JCI74337.
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Research Article

Cytokine therapy reverses NK cell anergy in MHC-deficient tumors

Abstract

Various cytokines have been evaluated as potential anticancer drugs; however, most cytokine trials have shown relatively low efficacy. Here, we found that treatments with IL-12 and IL-18 or with a mutant form of IL-2 (the “superkine” called H9) provided substantial therapeutic benefit for mice specifically bearing MHC class I–deficient tumors, but these treatments were ineffective for mice with matched MHC class I+ tumors. Cytokine efficacy was linked to the reversal of the anergic state of NK cells that specifically occurred in MHC class I–deficient tumors, but not MHC class I+ tumors. NK cell anergy was accompanied by impaired early signal transduction and was locally imparted by the presence of MHC class I–deficient tumor cells, even when such cells were a minor population in a tumor mixture. These results demonstrate that MHC class I–deficient tumor cells can escape from the immune response by functionally inactivating NK cells, and suggest cytokine-based immunotherapy as a potential strategy for MHC class I–deficient tumors. These results suggest that such cytokine therapies would be optimized by stratification of patients. Moreover, our results suggest that such treatments may be highly beneficial in the context of therapies to enhance NK cell functions in cancer patients.

Authors

Michele Ardolino, Camillia S. Azimi, Alexandre Iannello, Troy N. Trevino, Lucas Horan, Lily Zhang, Weiwen Deng, Aaron M. Ring, Suzanne Fischer, K. Christopher Garcia, David H. Raulet

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Figure 9

IL-12 and IL-18 treatment restores responsiveness in anergic NK cells.

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IL-12 and IL-18 treatment restores responsiveness in anergic NK cells. (...
(A) Cells obtained from RMA or RMA-S tumors were restimulated in vitro with 2 doses of IL-18 and IL-12 for 5 hours before accumulation of IFN-γ on NK cells was assessed by flow cytometry. (B) Splenic cells from WT or B2m–/–Ncr1+/gfp mice were stimulated for 30 minutes with no cytokines or with 50 ng/ml of IL-18 plus 10 ng/ml of IL-12 before ERK1/2 phosphorylation was assessed by flow cytometry. (C) Cells obtained from RMA or RMA-S tumors implanted in Ncr1+/gfp mice were stimulated for 30 minutes with the indicated doses of IL-18+IL-12, and pERK1/2 was analyzed by flow cytometry. (D) Splenic cells from WT or B2m–/–Ncr1+/gfp mice were stimulated for 30 minutes with the indicated doses of IL-2 or H9, and pERK1/2 was analyzed by flow cytometry. (E and F) Thirteen days after injection of RMA-S cells, mice were treated or not with 100 ng each of IL-12 and IL-18, and the responsiveness of tumor-infiltrating NK cells (E) was assessed as described in the legend to Figure 3. Expression of CD25 (F) was determined by flow cytometry. In A, E, and F, NK cells were gated as indicated in the legend to Figure 3, whereas in BD, NK cells were GFP+. Bars represent means ± SD. The experiments included at least 4 mice per group and were performed 3 times with similar results. Statistical analyses were performed with the unpaired Student’s t test.