4.7 Article

Novel Formulation of Undecylenic Acid induces Tumor Cell Apoptosis

Journal

Publisher

MDPI
DOI: 10.3390/ijms232214170

Keywords

undecylenic acid; anticancer; cancer; apoptosis; fatty acid; monounsaturated fatty acid; lipid droplets

Funding

  1. Cooperative Research Centre project (CRC-P) grant from AusIndustry, Department of Industry, Science, Energy and Resources [CRCPSEVEN000177]

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This study presents a novel platform for solubilizing fatty acids using amino acids and investigates the tumoricidal activity and mechanism of undecylenic acid. The results demonstrate that the GS-1 formulation, a combination of undecylenic acid and L-Arginine, induces concentration-dependent tumor cell death through a pro-apoptotic mechanism. GS-1 localizes to lipid droplets intracellularly and is taken up by cells via Fatty Acid Transport Protein 2 (FATP2). These findings contribute to the emerging field of fatty acids as potential anti-cancer therapeutics.
Undecylenic acid, a monounsaturated fatty acid, is currently in clinical use as a topical antifungal agent, however the potential for therapeutic application in other disease settings has not been investigated. In this study, we describe a novel platform for the solubilization of fatty acids using amino acids and utilize this approach to define a tumoricidal activity and underlying mechanism for undecylenic acid. We examined a novel formulation of undecylenic acid compounded with L-Arginine, called GS-1, that induced concentration-dependent tumor cell death, with undecylenic acid being the cytotoxic component. Further investigation revealed that GS-1-mediated cell death was caspase-dependent with a reduction in mitochondrial membrane potential, suggesting a pro-apoptotic mechanism of action. Additionally, GS-1 was found to localize intracellularly to lipid droplets. In contrast to previous studies where lipid droplets have been shown to be protective against fatty acid-induced cell death, we showed that lipid droplets could not protect against GS-1-induced cytotoxicity. We also found a role for Fatty Acid Transport Protein 2 (FATP2) in the uptake of this compound. Collectively, this study demonstrates that GS-1 has effective pro-apoptotic antitumor activity in vitro and, together with the novel platform of fatty acid solubilization, contributes to the re-emerging field of fatty acids as potential anti-cancer therapeutics.

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