Abstract P6-15-20: Development of PEA-15-Based Therapy in Breast Cancer in a Preclinical Study

Abstract

Abstract Background: PEA-15 (phosphoprotein enriched in astrocytes, 15 kDa) has tumor suppressor properties in both breast and ovarian cancer cells. Overexpression of PEA-15 in MDA-MB-468 triple-negative breast cancer cells using adenoviral vector (Ad.PEA-15) inhibited cell growth by inducing apoptosis. Treatment with Ad.PEA-15 led to significant regression of tumors in mice, indicating that PEA-15 could have therapeutic potential in breast cancer. PEA-15 exerts its antitumor activity by binding to ERK in the cytoplasm and preventing its translocation into the nucleus, thereby inhibiting ERK-dependent transcription and cell proliferation. Because ERK inhibitors have been shown to be toxic, in this study, we developed PEA-15 mimetic peptides as a therapeutic agent in breast cancer. These peptides, which are expected to be less toxic because of their ability to mimic PEA-15, are proposed to inhibit cell proliferation by sequestering ERK in the cytoplasm. Material and Methods: PEA-15 mimetic peptides were designed and synthesized based on structural analysis of linear segments from the C-terminal end of PEA-15, which is one of the two regions that are presumably critical for ERK binding, using nuclear magnetic resonance spectroscopy. These synthetic peptides were labeled with FAM to enable determination of their subcellular localization. The PULSin reagent was used as a delivery reagent for peptide penetration into cancer cells. The penetration ability of these peptides into HeLa and MDA-MB-468 cells was analyzed by fluorescence microscope and fluorescence-activated cell sorting. Their effect on ERK subcellular localization was examined by cell-fractionation analysis. Their impact on cell survival was determined by trypan blue viability assay and propidium iodide staining. Results: Ten peptides were designed and synthesized based on the C-terminal segments of PEA-15. Three of these FAM-labeled synthetic peptides delivered with the PULSin reagent were able to penetrate HeLa and MDA-MB-468 cells with 80-90% and 30-40% efficiency, respectively. Further, these peptides redirected ERK into the cytoplasm from the nucleus in MDA-MB-468 cells and caused 31% reduction in viability of HeLa cells as compared to the untreated control. Ongoing studies are evaluating PEA-15 peptides for their ability to interact with ERK using ELISA. In the future, we will also test their therapeutic efficacy and safety using a xenograft breast cancer model. Discussion: Previous studies revealed that PEA-15 has antitumor activity against breast and ovarian cancer cells by sequestering ERK in the cytoplasm. Due to the toxicity of ERK enzymatic inhibitors, we developed PEA-15 mimetic peptides and demonstrated their therapeutic potential for breast cancer, which may provide opportunities for breast cancer patients who currently have limited treatment options. Citation Information: Cancer Res 2010;70(24 Suppl):Abstract nr P6-15-20.