| Literature DB >> 34198590 |
Hee-Sub Yoon1,2, Sung Hoon Choi1,3, Jung-Hyun Park1, Jin-Young Min1, Ju-Yong Hyon1, Yeji Yang1, Sejin Jung4, Jae-Young Kim5, Nam Doo Kim4, Ji Hoon Lee4, Eun Hee Han1, Sung-Gil Chi2, Young-Ho Chung1,2,5.
Abstract
Multiple cancer-related biological processes are mediated by protein-protein interactions (PPIs). Through interactions with a variety of factors, members of the ribosomal S6 kinase (RSK) family play roles in cell cycle progression and cell proliferation. In particular, RSK3 contributes to cancer viability, but the underlying mechanisms remain unknown. We performed a kinase library screen to find IκBα PPI binding partners and identified RSK3 as a novel IκBα binding partner using a cell-based distribution assay. In addition, we discovered a new PPI inhibitor using mammalian two-hybrid (MTH) analysis. We assessed the antitumor effects of the new inhibitor using cell proliferation and colony formation assays and monitored the rate of cell death by FACS apoptosis assay. IκBα is phosphorylated by the active form of the RSK3 kinase. A small-molecule inhibitor that targets the RSK3/IκBα complex exhibited antitumor activity in breast cancer cells and increased their rate of apoptosis. RSK3 phosphorylation and RSK3/IκBα complex formation might be functionally important in breast tumorigenesis. The RSK3/IκBα-specific binding inhibitor identified in this study represents a lead compound for the development of new anticancer drugs.Entities:
Keywords: IκBα; RSK3 (RPS6KA2); binding inhibition; breast cancer; cell-based unidentified protein interaction discovery (CUPID); protein-protein interaction (PPI)
Year: 2021 PMID: 34198590 DOI: 10.3390/cancers13122973
Source DB: PubMed Journal: Cancers (Basel) ISSN: 2072-6694 Impact factor: 6.639