Silibinin induces metabolic crisis in triple-negative breast cancer cells by modulating EGFR-MYC-TXNIP axis: potential therapeutic implications - UTU Research Portal

A1 Refereed original research article in a scientific journal

Silibinin induces metabolic crisis in triple-negative breast cancer cells by modulating EGFR-MYC-TXNIP axis: potential therapeutic implications

Authors: Mohammad Askandar Iqbal, Shilpi Chattopadhyay, Farid Ahmad Siddiqui, Asad Ur Rehman, Shumaila Siddiqui, Gopinath Prakasam, Asifa Khan, Sarwat Sultana, Rameshwar NK Bamezai

Publisher: WILEY

Publication year: 2020

Journal: FEBS Journal

Journal name in source: FEBS JOURNAL

Journal acronym: FEBS J

Number of pages: 15

ISSN: 1742-464X

eISSN: 1742-4658

DOI: https://doi.org/10.1111/febs.15353

Abstract

Triple-negative breast cancer (TNBC) is an aggressive form of breast cancer with limited treatment modalities and poor prognosis. Metabolic reprogramming in cancer is considered a hallmark of therapeutic relevance. Here, we report disruption of metabolic reprogramming in TNBC cells by silibinin via modulation of EGFR-MYC-TXNIP signaling. Metabolic assays combined with LC-MS-based metabolomics revealed inhibition of glycolysis and other key biosynthetic pathways by silibinin, to induce metabolic catastrophe in TNBC cells. Silibinin-induced metabolic suppression resulted in decreased cell biomass, proliferation, and stem cell properties. Mechanistically, we identify EGFR-MYC-TXNIP as an important regulator of TNBC metabolism and mediator of inhibitory effects of silibinin. Highlighting the clinical relevance of our observations, the analysis of METABRIC dataset revealed deregulation of EGFR-MYC-TXNIP axis in TNBC and association of EGFR(high)-MYChigh-TXNIP(low)signature with aggressive glycolytic metabolism and poor disease-specific and metastasis-free survival. Importantly, combination treatment of silibinin or 2-deoxyglucose (glycolysis inhibitor) with paclitaxel synergistically inhibited proliferation of TNBC cells. Together, our results highlight the importance of EGFR-MYC-TXNIP axis in regulating TNBC metabolism, demonstrate the anti-TNBC activity of silibinin, and argue in favor of targeting metabolic vulnerabilities of TNBC, at least in combination with mainstay chemotherapeutic drugs, to effectively treat TNBC patients.