Abstract

Interaction between different leukocyte subsets and stromal cells in different organ microenvironments is critical for optimizing organ-specific immune responses that could limit metastasis formation and control disease-induced inflammation. IL-12 and IL-18 are potent immunoregulatory cytokines for natural killer (NK), NKT, and T cells, and have very distinctive effects on the NKT/NK subsets in different organs. The liver is a major target for the formation of metastases. We used a mouse model of liver metastasis to study the anti-tumor activity of IL-18 and/or IL-12 cytokines and the roles of NK and NKT cells to these responses. Treating mice with IL-18 plus IL-12 significantly reduced the number of tumor nodules in the liver to a greater degree than did either of the cytokines alone. As expected, IL-18 plus IL-12 stimulated a synergistic increase in systemic IFN-gamma in tumor bearing mice. The anti-tumor activity of IL-18 plus IL-12 therapy was abolished in IFN-gamma(-/-) mice. Using intracellular staining, NK and NKT cells were identified as the major producers of IFN-gamma in the livers of mice treated with IL-18 and/or IL-12. Liver NK cells were increased with daily treatment of mice with IL-18 plus IL-12 whereas liver NKT cells were diminished by this treatment. Preferential depletion of NK cells with anti-asGM1 resulted in a partial loss of the anti-tumor activity of IL-18 plus IL-12 therapy and revealed NK cells to be an important component of the mechanism for tumor regression. In contrast, the preferential depletion of NKT cells with betaGalCer decreased the number of liver tumor nodules in mice treated with vehicle control or IL-18 alone. Similarly, all treatment approaches showed increased anti-tumor activity in CD1d(-/-) mice, which lack NKT cells. Our data therefore shows that the IL-18 plus IL-12 induced anti-tumor activity in mice is NK and IFN-gamma dependent, and is able to overcome an endogenous immunosuppressive effect of NKT cells. These results thereby suggest that immunotherapeutic approaches that enhance NK cell numbers and function while preferentially depleting NKT cells could be effective in the treatment of cancer in the liver.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC009322-19
Application #
7592609
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
19
Fiscal Year
2007
Total Cost
$285,546
Indirect Cost

  Institution

Name
National Cancer Institute Division of Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code

  Publications

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