Abstract
Background:
Enhancing NK cells' antitumor activity requires sustained cytokine signaling. Interleukin-15 (IL-15) is a potent immunostimulatory cytokine used to armor CAR-NK and CAR-T cell immunotherapies. However, strategies to increase IL-15 expression and antitumor effect may trigger systemic toxicity with the potential to promote oncogenesis and autoimmune diseases.
Methods:
To overcome these limitations, we developed a new platform (IL15RB) whereby IL-15 with IL-2 signal peptide is tethered to its receptor, IL2Rβ.
Results:
NK92-expressing IL15RB (NK92IL15RB) cells expand indefinitely without exogenous cytokines and have significantly higher anticancer activity than NK-92 stimulated by IL-15, IL-2, or expressing tethered IL-2. NK92IL5RB showed resistance to irradiation and IL-4. However, TGFβ1 substantially reduced NK92IL5RB killing, suggesting the need to inhibit TGFβ1 in IL-15-mediated immunotherapies. IL15RB induced strong STAT3 but weaker STAT5 and STAT1 activation compared to IL-2. Chronic exposure of NK92IL15RB cells to cancer cells reduced STAT3 and STAT1 activation irreversibly, suggesting a role in exhaustion. Combination with CAR-CD19 enhanced NK92IL15RB antitumor activity against leukemia and increased its STAT5 activation. NK92IL15RB anti-tumors activity was further enhanced by combination with anti-PD1.
Conclusion:
Our data suggest that the tethering of IL-15 to its receptor IL2Rβ empowers NK cell cytolytic activity. Additionally, the tethering of IL-15 will prevent any systemic risk of toxicity.