Abstract Peroxisome proliferator activated receptor alpha (PPARα) is a transcription factor and master regulator of fatty acid oxidation. PPARα ligands modulate the switch between co-activator and co-repressor transcription complexes at PPARα-controlled target genes. In addition, PPARα has been shown to transrepress NF-κB signaling and inhibit angiogenesis. Renal cell carcinoma (RCC) expresses high levels of PPAR-α and is a highly angiogenic cancer. Current frontline treatments for RCC include chemotherapy, anti-angiogenics, and immunotherapy but are limited by the immune suppressive state of the tumor microenvironment. TPST-1120 is a novel PPARα antagonist for the treatment of cancer patients that binds in the ligand binding domain, positioning the AF-2 activation helix in an inactive conformation. The inactive conformation has a lower affinity for co-activator motifs and reduces activation of PPARα regulated genes. In a CHO-based reporter cell line, TPST-1120 potently competed against the PPARα-specific agonist GW7647 (IC50 = 36 nM at 20 nM GW7647) and an endogenous PPARα agonist oleoylethanolamide (OEA; IC50 = 15 nM at 30 µM OEA). Furthermore, in an enzyme fragment complementation assay, we demonstrated that TPST-1120 inhibited agonist-induced binding of PPARα to MED1 by destabilizing the co-activator complex thereby stabilizing the inactive conformation of PPAR-α. In a murine model of renal cell adenocarcinoma (RENCA), TPST-1120 treatment for 12 days (30 mg/kg qd) reduced tumor growth by 52% as a monotherapy (p<0.0001). Consistent with these findings, TPST-1120 inhibited tumor angiogenesis and proliferation as quantified by Ki67 levels. Combination treatment with current frontline therapeutics resulted in synergistic tumor inhibition of 74% with anti-PD1 (200 ug Q3D for 12 days) and 81% with cabozantinib (15 mg/kg QD for 15 days) (p<.0001). Flow cytometry-based analysis of tumors demonstrated increased CD8+ T cell infiltration in the TME as well as decreases in M2 and elevations in M1 macrophages. Importantly, we demonstrate that TPST-1120 can reverse an immunosuppressive class of immune cells to promote anti-tumor immunity and anti-angiogenesis in kidney cancer in the absence of overt toxicity. These data support advancement of TPST-1120 into RCC. Citation Format: Michael Gillespie, Valerie Chen, Isabella Howard, Keira Smith, Dave Freund, Nathan Standifer, Dara Burdette, Thomas W. Dubensky, Sam Whiting, Dipak Panigrahy. PPAR-α antagonist enhances immunotherapy and anti-angiogenic therapy to inhibit murine renal cancer [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 3045.