Abstract 1826: Anti-tumorigenic effects by targeted functional disruption of the Sin3 PAH-2 domain

Abstract

Abstract The Sin3 A/B adapter proteins function as structural scaffolds for repressor/activator complexes that regulate transcription through the specific association with histone modifying enzymes and a number of transcription factors. Sin3 contains four paired amphipathic α-helices (PAH domains). We have reported earlier that targeted disruption of the PAH2 domain with a SID (Sin3 Interaction Domain) peptide decoy in triple negative (TN) breast cancer cells leads to cytoskeletal reorganization, loss of anchorage independent growth and 3D invasive morphology and decreased cell adhesion and invasion. There is epigenetic reprogramming of silenced genes such as CDH1, ESR1 and RARA which are re-expressed and together contribute to a SID decoy induced switch from basal to a more differentiated luminal phenotype (Farias, et. al., PNAS, 2010, 107:11811-6). Computerized screening coupled with such assays as Duolink, GST pull downs and mammalian two hybrid identified small molecule inhibitors (SMI) that mimic the effects of the SID decoy peptide. SMI inhibit cellular invasion at nanomolar range and in in vivo mouse myc TN breast cancer prolong latency, decrease local invasion and metastasis. Tumors recovered showed evidence of re-expression of E-cadherin and estrogen receptor. Early effects of SID decoy in TN breast cancer cells include inhibition of invasion that is associated with a significant decrease in Src phosphorylation within 2-4hr of treatment. Recovery of phosphorylation after SID decoy washout is coupled with recovered invasion at 24hr. These effects occurred prior to measurable increase in E-cadherin expression, suggesting a non-transcriptional effect. In Drosophila larval breast cancer models with activated Src/Ras, overexpression of SID inhibited (60%) tumor growth in the eye imaginal disc, and was eradicated by the addition of a MEK inhibitor (AZD-6244), indicating a strong synergy between SID and AZD-6244. In the adult fly SID expression greatly inhibited RetMEN2B induced eye tumors (90%). These data demonstrate that SID decoys have a potential to be effective agents in the treatment of TN breast cancer by promoting basal phenotype reversal, inhibiting invasion and metastasis, and could be synergistic with specific inhibitors of signal transduction targets. Moreover, SID decoys can overcome profound oncogenic stimulus such as Ras, Src and Ret suggesting that they have a potential greater role than just in the treatment of TN breast cancer. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 1826. doi:1538-7445.AM2012-1826