PO.BCS01.01 · 生物信息与计算

Epigenetic-neurotransmitter crosstalk between EZH2 and dopamine D1 receptor signaling in triple-negative breast cancer

海报缩略图:Epigenetic-neurotransmitter crosstalk between EZH2 and dopamine D1 receptor signaling in triple-negative breast cancer
编号 43 展板 5 时间 4/19 02:00–05:00 区域 Section 3 主讲 Maciej Pietrzak, PhD
分会场 Application of Bioinformatics to Cancer Biology 1
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作者与单位

Maciej Pietrzak1, Xilal Y. Rima2, Gautam Sarathy3, Shivani Dhekne3, Lara Rizotto4, Dario Palmieri4, Sanjay Gupta5, Daniel G. Stover6, Giovanni Nigita7, Eduardo Reátegui2, Pierre Giglio8, Christian Rolfo7, Eswar Shankar3

1Department of Biomedical Informatics, College of Medicine, The Ohio State University, Columbus, OH,2Department of Chemical and Biomolecular Engineering, The Ohio State University,, Columbus, OH,3Division of Medical Oncology, Department of Internal Medicine, Wexner Medical Center, The Ohio State University, Columbus, OH,4Department of Cancer Biology and Genetics, The Ohio State University College of Medicine, The Ohio State University, Columbus, OH,5Department of Urology, School of Medicine, Case Western Reserve University, Cleveland, OH,6OSUCCC - James, Columbus, OH,7Division of Medical Oncology, Department of Internal Medicine, Wexner Medical Center, The Ohio State University, Columbus, OH,8Department of Neurology, School of Medicine, Wexner Medical Center, The Ohio State University, Columbus, OH

摘要 Abstract

Triple-negative breast cancer (TNBC) remains a clinically intractable subtype defined by the absence of ER, PR, and HER2 and characterized by aggressive progression and limited therapeutic vulnerabilities. EZH2, the catalytic subunit of PRC2, is a known oncogenic driver in TNBC through deposition of H3K27me3 and repression of tumor-suppressive programs. In contrast, dopamine D1 receptor (DRD1) signaling has recently emerged as an unexpected tumor-suppressive axis. However, the mechanistic interplay between EZH2-mediated epigenetic repression and DRD1-mediated neurotransmitter signaling is unknown, representing a critical gap in understanding neuro-epigenetic integration in cancer. We hypothesized that coordinated dysregulation of EZH2 and DRD1 reprograms are transcriptional states that govern TNBC aggressiveness. CRISPR-engineered EZH2 and DRD1 knockouts (KO) were generated in MDA-MB-231 cells and validated by immunoblotting. DRD1 KO significantly increased proliferation and migration, whereas EZH2 KO diminished growth and disrupted cytoskeletal architecture. Notably, DRD1 ablation enhanced EZH2 activity, indicating a previously unrecognized feedback loop linking dopaminergic signaling to epigenetic repression. RNA-seq profiling (n=4/group) revealed extensive remodeling of transcriptional networks with discrete EZH2- and DRD1-dependent signatures (FDR < 0.05, |log2FC| > 2). EZH2 KO selectively induced cytokine activity, calcium ion binding, MHC class II interactions, and biological processes regulating adhesion, cell-cell communication, leukocyte activation, and axon/projection guidance, collectively reflecting cytoskeletal restructuring and immune-modulatory reprogramming. In contrast, DRD1 KO enriched signaling receptor binding, regulator/activator activity, receptor-ligand interactions, and pathways governing adhesion, migration, and IL-10-mediated inflammatory signaling, consistent with a pro-invasive, pro-inflammatory phenotype. Together, these data delineate a coordinated epigenetic-dopaminergic axis in TNBC. DRD1 loss potentiates EZH2-driven inflammatory and migratory programs, while EZH2 depletion activates adhesion and immune-regulatory pathways that constrain tumor aggressiveness. Targeting this dual regulatory node may represent a novel strategy to disrupt pro-tumor transcriptional circuitry and improve therapeutic outcomes in TNBC (Supported by DOD: W81XWH2010065, Eswar Shankar).
利益披露 Disclosure
M. Pietrzak, None.. X. Y. Rima, None.. G. Sarathy, None.. S. Dhekne, None.. L. Rizotto, None.. D. Palmieri, None.. S. Gupta, None.. D. G. Stover, None.. G. Nigita, None.. E. Reátegui, None.. P. Giglio, None.. C. Rolfo, None.. E. Shankar, None.

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