Abstract Cancer cells frequently exhibit altered lipid metabolism to sustain their rapid growth and proliferation.Sterol Regulatory Element-Binding Proteins (SREBPs) are key transcription factors that orchestratelipid biosynthesis and uptake in cells. Dysregulation of SREBPs is a common feature of many cancertypes, making them attractive targets for therapeutic intervention. In this study, we present acomprehensive exploration of the potential and rationale for targeting lipid metabolism in cancerthrough the use of a small molecule inhibitor that targets activation of SREBP. We illustrate that oursmall molecule inhibitor (SMI) exhibits potent anticancer activity and effectively targets SREBPsignaling in a variety of prostate cancer models as well as in non-prostate cancer models that arelipogenesis driven. Our novel SMI induces apoptosis and reduces PCa cell proliferation, suppressescell invasion and migration. Furthermore, we illustrate that in addition to suppressing the transcriptionfactor activity of SREBPs, these novel SMIs are highly effective in suppressing both the full length andvariant androgen receptor and their signaling in prostate cancer cells. Notably, in cell and organoidmodels, these novel inhibitors exhibit synergistic anticancer activity in combination with the ARsignaling inhibitor, Enzalutamide. The anticancer activity of these inhibitors extend beyond ARdependent prostate cancer and are also effective in organoid models of neuroendocrine PCa, aparticularly drug-resistant and aggressive PC subtype. Lastly, we illustrate excellent pharmacokineticsand potent anti-tumor effects of these novel SREBP activation inhibitors using in vivo castration-resistant prostate cancer CDX tumors. Given the urgent need for novel targets in PCa, our first-in-class inhibitor represents a promising therapeutic strategy with the potential to effectively targetdysregulated lipogenesis in cancer patients. Citation Format: Dallin Lowder, Jin Na Shin, Maria E. Ruiz-Echartea, Jenny Deng, Aleksandra Rusin, Darlene Skapura, Michael Ittmann, Salma Kaochar. Exploring the multifaceted efficacy of de novo lipogenesis inhibitor in cancer therapy [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 2077.