Abstract 4558: A triterpenoid derivative has strong antitumor activities in gemcitabine-resistant advanced bladder cancer models and promotes immune cell infiltration in a high grade murine syngeneic model

Abstract Bladder cancer (BC) presents a formidable challenge in treatment and patient survival, requiring particular attention to advanced stages, such as muscle-invasive stage (MIBC), due to its potential for rapid progression and substantial impact on patient morbidity and mortality. The five-year survival rate for MIBC is a meager 30%, which drops further down to 8% once tumors metastasize. Advanced bladder cancers (High grade T1) are treated with intravesical therapy with Gemcitabine and Cisplatin (G+C) combination and Stage T2 are treated neoadjuvant with G+C and cystectomy, thereby decreasing the quality of life for patients with BC. Furthermore, tumors progress beyond responding to other chemotherapy regimens such as dose-dense treatment with Methotrexate +Vinblastine + Adriamycin and Cis-platin (MVAC), all of which will further decrease the quality of life with persistent adverse toxicity. Our laboratory has developed a novel compound derived from the pentacyclic triterpenoid, Ursolic acid, termed N-methyl piperazine conjugated-Ursolic acid, or UA4, and have demonstrated its antitumor activities against both Gem-Sensitive (Gem-S) and Gem-Resistant (Gem-R) human advanced BC cell lines, T24 and 5637. We tested the combination of Gem, UA4 and Gem + UA4 in a murine non-MIBC model (MB49) to investigate the role of immune cell infiltration during tumor development and treatment response. UA4 treatment was equally effective in chemo-sensitive and chemo-resistant cell lines at dosages between 4-5µM. Previous in vitro mechanistic studies on UA4 and UA4+Gem combination treatments revealed cell death occurred through apoptosis and autophagy, along with a highly selective form of mitochondrial-mediated autophagy (mitophagy). These findings were confirmed with transmission electron microscopy ultrastructural analysis, cell cycle phase analyses, excess, changes in mitochondrial membrane potential and reactive oxygen species measurements. Gem-S and Gem-R xenografts in athymic mice further supported UA4’s efficacy in vivo, demonstrating a significant reduction in both tumor weight and volume following oral gavage (100mg/kg), with mice exhibiting no signs of systemic toxicity. Combination treatment with UA4 and Gem synergistically increased antiproliferative activity. MB49 syngeneic mice model further supported UA4 as an effective therapy, and immunofluorescence assays with immune-related markers, suggested an anti-inflammatory effect in vivo. Overall, we demonstrate UA4 has a potential to be used as an efficacious, non-toxic compound for further adjuvant use in clinical settings. Citation Format: Juliette Rose Seremak, Kunj Bihari Gupta, Siva S. Panda, Bal L. Lokeshwar. A triterpenoid derivative has strong antitumor activities in gemcitabine-resistant advanced bladder cancer models and promotes immune cell infiltration in a high grade murine syngeneic model [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 4558.