Abstract
Abstract p53 tumor suppressor mutations result in loss of function of p53 in approximately 50% of all human cancers.TP53 missense, nonsense mutations and p53 deletion are present in about 50%, 12% and 5% of all p53 driven cancers, respectively. To date there is no effective treatment for rescuing p53 function in cancers using a pan-p53 approach. The use of ADGN-531 is a new potent strategy combining mRNA with a tumor selective peptide nanocarrier to rescue of p53 tumor suppressor function. ADGN-531 contains proprietary p53-mRNA complexed with proprietary short amphipathic peptides in the form of nanoparticles. ADGN-531 was evaluated on 20 different cancer cell lines harboring various p53 mutations. In-vivo efficacy of IV-administered ADGN-531 nanoparticles was evaluated on colorectal SW403 (p53 nonsense/KRASG12V), osteosarcoma SaOs2 (p53 null) and NSCLC NCI-H358 (p53 null/KRASG12C) mouse xenografts at a dose of 0.25-1.0 mg/kg weekly. ADGN-531/sotorasib synergy was evaluated in vitro on NCI-H358 (p53 null/KRASG12C) and Mia-PACA (p53R48W/KRASG12C) cells and in vivo on NCI-H358 mouse xenograft. ADGN-531 markedly inhibits the growth of a large panel of cancer cells harboring p53-missense or nonsense mutations or p53-deletion, by rescuing p53 transcriptional activity and subsequent expression of its target proteins. ADGN-531 induces cell cycle arrest in G1 due to p21 upregulation and apoptosis following BAX and PUMA activation. IV-administration of ADGN-531 resulted in dose responsive tumor growth inhibition in SaOs2, SW403 and H358 xenografts independent of KRAS status. We demonstrated a strong synergy in a NSCLC H358 xenograft (tumor regression 80%) when restoring P53 function with ADGN-531 (0.5mg/kg, weekly) along with inhibition of KRASG12C mutant using sotorasib (10mg/kg, daily). ADGN-531 potentiated the effect of sotorasib on sotorasib resistant cells harboring high level of KRASG12C in permanent active state. ADGN-531 treatments are well tolerated, no sign of clinical toxicity was detected after single or repeated administrations. ADGN-531 is effective in rescuing p53 function both in vitro and in vivo across a wide range of p53 alterations. Our study provides a proof-of-concept that restoration of tumor suppressor function by ADGN-531 could be used as a single agent therapy in P53 altered tumors independent of other driver mutations e.g., KRAS, or with other therapies for potent combinatorial cancer treatment. Citation Format: Gilles Divita, Audrey Grunenberger, Elodie Czuba, Veronique Josserand, Melanie Guidetti, Neil Desai. In vivo rescue of p53 tumor suppressor function with ADGN-531 across Pan-p53 alterations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 640.
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