TPS9608 Background: Antibodies targeting immune checkpoints such as PD-1 and CTLA-4 has shown significant benefit in late-stage melanoma. But further improvements in therapeutic options are still required. Two approaches for improving the outcome of immunotherapy with checkpoint inhibitors are neoadjuvant treatment and local intratumoral (IT) injection. IT immunotherapy uses the tumor as its own vaccine to activate the immune system, priming an anti-tumor immune response and generating systemic tumor responses, whilst minimizing systemic exposure and off-target toxicities. Neoadjuvant therapy provides the opportunity for preoperative disease shrinkage with the potential to improve surgical morbidity. There is currently no neoadjuvant standard of care for resectable, advanced melanoma patients. PH-762 is a potent RNAi molecule targeting PD-1 with structural and chemical modifications conferring properties suitable for IT administration, including an optimized cell and tissue uptake profile. Pharmacology studies show potent in vitro silencing of PD-1 associated with T cell activation, and robust, dose-dependent in vivo inhibition of tumor growth in syngeneic tumor models. Methods: The purpose of this study is to evaluate the safety of neoadjuvant use of PH-762 administered by IT injection in subjects with resectable stage IIIB/IIIC/IIID or IV melanoma, to determine the recommended Phase 2 dose, PK after IT injection, and potential immunologic and pathologic tumor responses. Study treatment constitutes of once weekly injections with PH-762 into one designated tumor lesion for 4 weeks prior to surgical excision at 5-6 weeks after the initial injection, with up to 5 dose levels tested in a serial fashion in cohorts of 3 or more subjects. Eligible subjects will have at least one resectable melanoma deposit that is large enough to allow IT injection, and that can undergo repeated biopsy. Subjects with active brain metastases, leptomeningeal disease, uveal melanoma, and auto-immune disease are excluded. The dose of PH-762 will be normalized to tumor volume to ensure an equivalent local dose (tumor tissue concentration). Post tumor excision, subjects will be followed-up for 6 weeks. Primary endpoint is to determine a safe dose of PH-762 assessed by incidence of Dose Limiting Toxicities (DLT) prior to tumor resection. Bayesian optimal interval (BOIN) design will be employed to evaluate escalating doses of PH-762 to determine the Maximum Tolerated Dose based on occurrence of DLT. Tumor changes will be evaluated per RECIST criteria (version 1.1 and iRECIST version adapted for use with IT therapy) and pathological response. Immunological response in tumor tissue and blood samples will be assessed as secondary endpoints. Enrollment commenced in February 2022. Clinical trial information: 2021-002859-10.
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