TY - JOUR
T1 - Self-delivering RNAi immunotherapeutic PH-762 silences PD-1 to generate local and abscopal antitumor efficacy
AU - Cuiffo, Benjamin
AU - Maxwell, Melissa
AU - Yan, Dingxue
AU - Guemiri, Ramdane
AU - Boone, Andrew
AU - Bellet, Deborah
AU - Rivest, Brianna
AU - Cardia, James
AU - Robert, Caroline
AU - Fricker, Simon P.
N1 - Publisher Copyright:
Copyright © 2024 Cuiffo, Maxwell, Yan, Guemiri, Boone, Bellet, Rivest, Cardia, Robert and Fricker.
PY - 2024/1/1
Y1 - 2024/1/1
N2 - Objective: Immunotherapeutic inhibition of PD-1 by systemically administered monoclonal antibodies is widely used in cancer treatment, but it may cause severe immune-related adverse events (irSAEs). Neoadjuvant PD-1 inhibition before surgery has shown promise in reducing recurrence by stimulating durable antitumor immunity. Local intratumoral (IT) immunotherapy is a potential strategy to minimize irSAEs, but antibodies have limited tumor penetration, making them less suitable for this approach. Therapeutic self-delivering RNAi (INTASYL) is an emerging modality well-suited for neoadjuvant immunotherapy. This study presents preclinical proof-of-concept for PH-762, an INTASYL designed to silence PD-1, currently in clinical development for advanced cutaneous malignancies (ClinicalTrials.gov#NCT06014086). Methods and analysis: PH-762 pharmacology was characterized in vitro, and in vivo antitumor efficacy was evaluated using a murine analogue (mPH-762) in syngeneic tumor models with varying PD-1 responsiveness. Bilateral Hepa1-6 models assessed abscopal effects of local treatment. Ex vivo analyses explored mechanisms of direct and abscopal efficacy. Results: PH-762 was rapidly internalized by human T cells, silencing PD-1 mRNA and decreasing PD-1 surface protein, enhancing TCR-stimulated IFN-γ and CXCL10 secretion. In vivo, IT mPH-762 provided robust antitumor efficacy, local and lymphatic biodistribution, and was well tolerated. Ex vivo analyses revealed that IT mPH-762 depleted PD-1 protein, promoted leukocyte and T cell infiltration, and correlated with tumor control. IT mPH-762 also demonstrated efficacy against untreated distal tumors (abscopal effect) by priming systemic antitumor immunity. Conclusion: These data support PH-762 as a promising candidate for neoadjuvant immunotherapy in clinical studies.
AB - Objective: Immunotherapeutic inhibition of PD-1 by systemically administered monoclonal antibodies is widely used in cancer treatment, but it may cause severe immune-related adverse events (irSAEs). Neoadjuvant PD-1 inhibition before surgery has shown promise in reducing recurrence by stimulating durable antitumor immunity. Local intratumoral (IT) immunotherapy is a potential strategy to minimize irSAEs, but antibodies have limited tumor penetration, making them less suitable for this approach. Therapeutic self-delivering RNAi (INTASYL) is an emerging modality well-suited for neoadjuvant immunotherapy. This study presents preclinical proof-of-concept for PH-762, an INTASYL designed to silence PD-1, currently in clinical development for advanced cutaneous malignancies (ClinicalTrials.gov#NCT06014086). Methods and analysis: PH-762 pharmacology was characterized in vitro, and in vivo antitumor efficacy was evaluated using a murine analogue (mPH-762) in syngeneic tumor models with varying PD-1 responsiveness. Bilateral Hepa1-6 models assessed abscopal effects of local treatment. Ex vivo analyses explored mechanisms of direct and abscopal efficacy. Results: PH-762 was rapidly internalized by human T cells, silencing PD-1 mRNA and decreasing PD-1 surface protein, enhancing TCR-stimulated IFN-γ and CXCL10 secretion. In vivo, IT mPH-762 provided robust antitumor efficacy, local and lymphatic biodistribution, and was well tolerated. Ex vivo analyses revealed that IT mPH-762 depleted PD-1 protein, promoted leukocyte and T cell infiltration, and correlated with tumor control. IT mPH-762 also demonstrated efficacy against untreated distal tumors (abscopal effect) by priming systemic antitumor immunity. Conclusion: These data support PH-762 as a promising candidate for neoadjuvant immunotherapy in clinical studies.
KW - PD-1 inhibition
KW - abscopal effect
KW - immunooncology
KW - immunotherapy
KW - siRNA
UR - http://www.scopus.com/inward/record.url?scp=85212294421&partnerID=8YFLogxK
U2 - 10.3389/fimmu.2024.1501679
DO - 10.3389/fimmu.2024.1501679
M3 - Article
AN - SCOPUS:85212294421
SN - 1664-3224
VL - 15
JO - Frontiers in Immunology
JF - Frontiers in Immunology
M1 - 1501679
ER -