Unaltered IL-2 encapsulated in acoustically active lipid microspheres for systemic but targeted microdose delivery to tumor microenvironment.

e14535 Background: In order to take local advantage of exogenous interleukin-2 (IL-2) on effector T-cells within the tumor microenvironment while simultaneously avoiding systemic Treg immunosuppressive effects, microdoses of recombinant human IL-2 (rhIL-2) were encapsulated in gas-filled lipid microspheres (eIL-2), then activated with ultrasound. This novel therapeutic agent (eIL-2) was selectively delivered to the tumor via sonoporation and its anti-tumor effects were determined alone and in combination with PD-1 blockade. Methods: In an MC38 colon cancer model, jugular button catheters (Instech) were surgically implanted in a total of 56 animals (8 animals per arm) prior to tumor inoculation to facilitate repeatable IV injection of both anti-PD-1 (RMP1-14; BioXCell) and microspheres. Imagent perflexane lipid microspheres were incubated with rhIL-2 and the high concentration infranatant was separated, discarded, and replaced with sterile saline to resuspend microspheres to formulate eIL-2 on-site. Tumor-bearing mice were dosed on Days 1, 4, 8, and 12. Ultrasound (US) settings used were 2.2 MHz frequency, and 0.339 mechanical index (MI) during insonation. Once every 10 seconds a microbubble destruct pulse of 1.304 MI lasting 1,100 milliseconds was applied. Total insonation time was 5 minutes using a commercial ultrasound scanner (Mindray TE7) operating within diagnostically safe exposure limits. Study groups included Group 1: no treatment; Group 2: aPD-1, 3 mg/kg; Group 3: aPD-1, 3 mg/kg, Imagent + US; Group 4: Free rhIL-2, 10,000 IU (0.61μg)/animal; Group 5: eIL-2, approximately 0.2 μg encapsulated/animal; Group 6: Free rhIL-2, 10,000 IU (0.61μg)/animal, aPD-1, 3 mg/kg; Group 7: eIL-2, approximately 0.1 μg encapsulated/animal, aPD-1, 3 mg/kg. Results: The anti-PD-1 dose of 3 mg/kg demonstrated an expected tumor growth inhibition over control of -38.2% on Day 6, -35.6% on Day 8 and -30.3% on Day 12. Adding eIL-2 + ultrasound external stimuli approximately doubled the tumor inhibition effect of RMP1-14 to -68.1% on Day 6, -69.2% on Day 8 and -62.0% on Day 12. We also analyzed cytokine levels in the peripheral blood (Day 12) using a multiplex ELISA and observed elevated levels of pro-inflammatory cytokines including IFN-g, IL-12, and IL-1a, which likely serve to enhance anti-tumor immunity. IL-15 was also increased following treatment, which supports effector T cell survival. Conclusions: Using a novel form of recombinant human interleukin-2 encapsulated within a gas-filled lipid microsphere, we demonstrated that ultrasound-activated local delivery via sonoporation plus systemic PD-1 blockade led to improved tumor control and increased expression of pro-inflammatory cytokines. This novel approach enhances the efficacy of checkpoint blockade for the treatment of solid tumors. Further experiments are underway to interrogate mechanisms of action.