Abstract

Abstract Introduction: Bone metastasis is clinically observed in approximately 90% of patients with advanced prostate cancer (PCa). Metastatic bone destruction is driven by a self-reinforcing process coupling osteoclast (OC)-mediated bone degradation to PCa growth, and where cell movement acts to keep these two cooperating cell types in close proximity and to move them across the bone surface. We sought to create a new class of therapeutics that would be highly effective at inhibiting PCa-mediated bone destruction by targeting both OC function and cell motility. Methods: We synthesized new chemical entities, termed Dual Acting Bone Defender agents (DABDs), that couple the small molecule anti-motility agent, KBU2046, with bisphosphonate (bis), through a chemical linker. Assays for in vitro efficacy included: cell migration and invasion, binding to bone mineral, inhibiting osteoclast (OC)-mediated bone destruction, inhibition of Raf1 phosphorylation and inhibition of protein prenylation. In vivo assays included intra-cardiac (IC) injection of human PCa cells into mice, followed by real time monitoring of tumor growth and bone destruction by IVIS and CT imaging, respectively. Findings: We successfully created a novel route of chemical synthesis allowing us to access and probe unique chemical space, providing for single small molecules with bis functional groups linked to a KBU2046 core through a linker moiety. DABDs retain the cellular and molecular characteristics of KBU2046 and bis. Like KBU2046, they inhibit PCa cell motility and phosphorylation of Raf1 on its activation motif. They also inhibit the motility of breast and lung cancer cells. Like bis, they inhibit OC-mediated bone mineral destruction, prenylation of Ras small GTPase proteins, and chemically bind hydroxyapatite. Administered prior to IC injection, DABDs are so effective that they prolong animal survival and inhibit bone destruction in a dose-dependent manner. In mice with established bone metastasis to the femur, after IC injection, DABDs inhibit the growth of tumors. Doses 3,000 fold higher than that required for efficacy had no clinical or critical organ toxicity. Conclusions: DABDs represent a new multifunctional class of therapeutic agents that inhibit PCa-mediated bone destruction and have a high potential for advancing clinical efficacy in PCa patients with bone metastasis. Citation Format: Fangfang Qiao, Ryan Gordon, Abhinandan Pattanayak, Katelyn O’Neill, Nina Chaika, Weining Chen, Rachel Rhatigan, Raymond Bergan. Dual acting bone defender agents inhibit prostate cancer-mediated bone destruction [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 570.

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