Abstract

Abstract The activator protein 1 (AP-1) transcription factor is a dimeric complex consisting of proteins from the JUN, FOS, MAF, and ATF families. AP-1 complexes have been identified as novel therapeutic targets in cancer due to their role in tumor growth, invasion, metastasis, angiogenesis and chemoresistance. Dimerization of components of the AP-1 complex via leucine zipper domain interactions is required for DNA binding and subsequent transcriptional activity. We designed a peptide (Jun antagonizing peptide, JunAP) targeting the basic leucine zipper motif of AP-1 to antagonize AP-1 complex formation and prevent associated activity. Fluorescence polarization and DNA ELISA assays demonstrate target binding and selectivity of JunAP towards AP-1 family members, co-immunoprecipitation experiments reveal that JunAP blocks protein-protein interactions between cJun and its key binding partners, and reporter assays confirm inhibition of AP-1 transcriptional activity in vitro. Pathway analysis of RNA sequencing data confirmed by qPCR analysis shows that JunAP disrupts key pathways required for cell survival and migration. Corresponding functional in vitro assays reveal that JunAP exhibits an inhibitory effect on invasion in Boyden chamber assays and demonstrates potent cytotoxicity in Jun-dependent cells. Further, in a BT549 triple negative breast cancer subcutaneous xenograft model, administration of JunAP results in tumor regression, demonstrating the anti-cancer potential of targeting the AP-1 complex. In summary, these data support JunAP as a potent peptide antagonist of the AP-1 transcription factor family that warrants further development as a potential therapeutic option for AP-1 driven tumors. Citation Format: Karen Mendelson, Zachary F. Mattes, Siok Leong, Ricardo Ramirez, Mark Koester, Claudio Scuoppo, Julia Diehl, Erin Gallagher, Jerel Gonzales, Franco Abbate, Lila Ghamsari, Gene Merutka, Barry J. Kappel, Abi Vainstein-Haras, Jim A. Rotolo. JunAP, a peptide antagonist against the activator protein 1 transcription factor complex, demonstrates cancer cell cytotoxicity and reduced invasion in vitro and tumor regression in vivo in TNBC models [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 3051.

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