Tumor cells ectopically expressing the membrane-bound form of IL-7 develop an antitumor immune response efficiently in a colon carcinoma model

Abstract

Various approaches employing cytokines and cytokine gene–modified tumor cells have been explored to induce antitumor responses, yet their widespread application has been limited due to efficacy concerns and adverse effects. In this study, interleukin-7 was engineered for expression both as a natural secretory form (sIL-7) and as a membrane-bound form fused with the B7.1 type I transmembrane protein (mbIL-7/B7) on CT26 colon cancer cells. Analysis of the resulting cell clones demonstrated that ectopically expressed sIL-7 and mbIL-7/B7 both retained similar capacities to induce the expansion and activation of CD8⁺ T cells and to enhance antitumor responses in vitro. While the sIL-7 or mbIL-7/B7 clones showed similar growth in culture, the mbIL-7/B7 clone exhibited lower tumorigenicity in mice compared with the sIL-7 clone or wild-type CT26 cells. Specifically, the mbIL-7/B7 clone failed to form tumors in approximately 60% of the mice injected with it. Moreover, 80% of mice that rejected the mbIL-7/B7 clone developed long-term systemic immunity against CT26 cells. Analysis of immune cells within the tumor masses revealed significant increases in CD4⁺ T cells, CD8⁺ T cells, and dendritic cells in tumors formed by the mbIL-7/B7 clone compared to those formed by the sIL-7 clone. These findings suggest that the membrane-bound form of IL-7 with B7.1 is more effective than the secretory form in establishing antitumor immunity within the tumor microenvironment. Our strategy of expressing the mbIL-7/B7 chimera holds promise as a novel approach for tumor therapy, particularly in cases requiring IL-7 supplementation.