Effect of local activation via SQ3370 on the safety of chemotherapy with concomitant anti-tumor immune response

e15525 Background: With systemic chemotherapy, only 1-2% of the dose given reaches a local tumor, while the remaining leads to off-target toxicities. Hence, there is a critical need to locally deliver cytotoxics directly to the tumor. Our approach (SQ3370) consists of: 1. SQL70 - drug-activating biomaterial carrying 2. SQP33 - chemically-modified prodrug of doxorubicin (Dox) with attenuated activity. Methods: SQL70 is injected at the tumor site followed by SQP33 given systemically. The prodrug is captured by the biomaterial due to their complementary chemical reactivities. The active drug is then spontaneously released, providing local delivery directly to the tumor region while reducing systemic side effects. Results: We have shown that the greater safety of SQ3370 allows significantly higher doses to be administered compared to conventional Dox. PK studies in rodents and dogs show highly efficient capture and activation of the prodrug, likely due to the rapid reaction of SQP33 with SQL70. Without SQL70, SQP33 shows minimal spontaneous conversion to active Dox. A single SQL70 injection selectively activated multiple doses of SQP33 at the target site, maximizing the local therapeutic index. Additionally, SQP33 was capable of being activated by SQL70 injected in various regions in the body, including peri/intratumoral, intraperitoneal, subcutaneous and intramuscular sites. SQ3370 treatment also enhances efficacy in tumor-bearing mice: In a syngeneic MC38 colorectal cancer model, SQ3370 significantly improved anti-tumor response and overall survival compared to conventional Dox. In mice bearing two tumors, SQL70 injection at one tumor site followed by systemic SQP33 treatment induced an anti-tumor response in both the injected and non-injected tumors. This technology also enabled a sustained anti-tumor response upon rechallenge with MC38 tumor cells, without additional treatment. Furthermore, SQ3370 increased CD4 and CD8 TILs and decreased regulatory T-cells in both injected and non-injected tumors, suggesting that SQ3370 can induce an immune-mediated anti-tumor effect, thus expanding potential treatment options in the clinic and highlighting the advantages of immune-sparing cytotoxic therapy. Conclusions: SQ3370 enables delivery of cytotoxic drugs to multiple target sites while limiting off-target exposure, leading to improved safety and efficacy. A multicenter, first-in-human, Phase 1 dose-escalation clinical trial (NCT04106492) in patients with advanced solid tumor malignancies is planned to commence enrollment in April, 2020.