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Interrupting specific hydrogen bonds between ELF3 and MED23 as an alternative drug resistance-free strategy for HER2-overexpressing cancers

Soo‐Yeon Hwang, Seojeong Park, Hyunji Jo, Seung Hee Seo, Kyung‐Hwa Jeon, Seojeong Kim, Ah-Reum Jung, Chanju Song, Misun Ahn, Soo Yeon Kwak, Hwa-Jong Lee, Motonari Uesugi, Younghwa Na, Youngjoo Kwon

2022Journal of Advanced Research13 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: HER2 overexpression induces cancer aggression and frequent recurrences in many solid tumors. Because HER2 overproduction is generally followed by gene amplification, inhibition of protein-protein interaction (PPI) between transcriptional factor ELF3 and its coactivator MED23 has been considered an effective but challenging strategy. OBJECTIVES: This study aimed to determine the hotspot of ELF3-MED23 PPI and further specify the essential residues and their key interactions in the hotspot which are controllable by small molecules with significant anticancer activity. METHODS: Intensive biological evaluation methods including SEAP, fluorescence polarization, LC-MS/MS-based quantitative, biosensor, GST-pull down assays, and in silico structural analysis were performed to determine hotspot of ELF3-MED23 PPI and to elicit YK1, a novel small molecule PPI inhibitor. The effects of YK1 on possible PPIs of MED23 and the efficacy of trastuzumab were assessed using cell culture and tumor xenograft mouse models. RESULTS: ELF3-MED23 PPI was found to be specifically dependent on H-bondings between D400, H449 of MED23 and W138, I140 of ELF3 for upregulating HER2 gene transcription. Employing YK1, we confirmed that interruption on these H-bondings significantly attenuated the HER2-mediated oncogenic signaling cascades and exhibited significant in vitro and in vivo anticancer activity against HER2-overexpressing breast and gastric cancers even in their trastuzumab refractory clones. CONCLUSION: Our approach to develop specific ELF3-MED23 PPI inhibitor without interfering other PPIs of MED23 can finally lead to successful development of a drug resistance-free compound to interrogate HER2 biology in diverse conditions of cancers overexpressing HER2.

Topics & Concepts

TrastuzumabCancer researchIn vivoChemistrySmall moleculeTranscription factorIn silicoBiologyGeneBreast cancerCancerBiochemistryGeneticsHER2/EGFR in Cancer ResearchClick Chemistry and ApplicationsFerrocene Chemistry and Applications
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