Immunotherapy revolutionized cancer treatment in the last decade. Both NK cells and T cells are key components of host immunity against malignant cells that are being extensively investigated in the field of cancer immunotherapy. While approaches have been developed to improve the antitumor activity of NK and T cells, the tumor microenvironment remains an obstacle to effective NK and T-cell-based therapies. Here, we demonstrated that cancer-conditioned medium suppresses the antitumor activity of NK cells. Ammonia, a by-product of cancer cell metabolism, accumulated in cancer-conditioned medium and in the tumor microenvironment, and impaired the cytotoxicity of NK cells as well as the efficacy of antibody-based and chimeric antigen receptor (CAR) NK and CAR T-cell-based therapies in vitro. Ammonia induced NK and T-cell dysfunction by decreasing the amount of mature perforin in secretory lysosomes, which was dependent on its lysosomotropic features and ability to increase pH in acidic compartments. These findings demonstrate that, in addition to its previously described role in promoting tumor growth as a source of nitrogen for tumor biomass, ammonia promotes tumor immune escape by inhibiting both NK and CAR T-cell cytotoxicity.
Significance: Ammonia is elevated in the tumor microenvironment and functions as an immunoinhibitory metabolite in cancer by reducing perforin levels, inhibiting NK and T-cell-mediated immunity and limiting the efficacy of immunotherapies.
©2025 The Authors; Published by the American Association for Cancer Research.