Alisol B 23-acetate-induced HepG2 hepatoma cell death through mTOR signaling-initiated G1 cell cycle arrest and apoptosis: A quantitative proteomic study.

Ji Xia,Lin Wang,Qiang Luo,Shengbin Huang,Fuquan Jiang,Yang Xu,Jie Liu,Guanghui Wang,Jingjing Xie

doi:10.21147/j.issn.1000-9604.2019.02.12

Ji Xia, Lin Wang + Show 7 more

Open Access

https://doi.org/10.21147/j.issn.1000-9604.2019.02.12

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Abstract

ObjectiveThe present study aimed to investigate the molecular events in alisol B 23-acetate (ABA) cytotoxic activity against a liver cancer cell line.MethodsFirst, we employed a quantitative proteomics approach based on stable isotope labeling by amino acids in cell culture (SILAC) to identify the different proteins expressed in HepG2 liver cancer cells upon exposure to ABA. Next, bioinformatics analyses through DAVID and STRING on-line tools were used to predict the pathways involved. Finally, we applied functional validation including cell cycle analysis and Western blotting for apoptosis and mTOR pathway-related proteins to confirm the bioinformatics predictions.ResultsWe identified 330 different proteins with the SILAC-based quantitative proteomics approach. The bioinformatics analysis and the functional validation revealed that the mTOR pathway, ribosome biogenesis, cell cycle, and apoptosis pathways were differentially regulated by ABA. G1 cell cycle arrest, apoptosis and mTOR inhibition were confirmed.ConclusionsABA, a potential mTOR inhibitor, induces the disruption of ribosomal biogenesis. It also affects the mTOR-MRP axis to cause G1 cell cycle arrest and finally leads to cancer cell apoptosis.

Highlights

The rhizome of Alisma orientale has been widely used in traditional Chinese medicine for the treatment of edema, high blood cholesterol, diabetes and urinary disturbance [1,2]
We found that several mammalian target of rapamycin (mTOR)/ribosome proteins, FAS/caspase-related apoptotic proteins, and cell cycle-related proteins were involved in Alisol B 23-acetate (ABA)-induced HepG2 cytotoxicity
We examined whether expression of the mTOR L1460P mutant could inhibit apoptosis induced by treatment with 15 μmol/L ABA for 10 h, and we found that ectopic expression of mTOR L1460P decreased poly-ADP-ribose polymerase (PARP) cleavage in HepG2 cells www.cjcrcn.org

Summary

Introduction

The rhizome of Alisma orientale has been widely used in traditional Chinese medicine for the treatment of edema, high blood cholesterol, diabetes and urinary disturbance [1,2]. Its components include a series of protostane-type triterpenoids, including alisol A and B and alisol monoacetates and sesquiterpenes such as alismols A, B, and C. Several alisol B acetates have been identified, all of which have the effect of inhibiting nitric oxide production and have antiallergic effects. Alisol B 23-acetate (ABA) has been found to exhibit significant cytotoxic activity against several cancer cell lines, including PC-3, SGC-7901, MDA-MB-231 and MCF-7 cell lines [3,4]. The detailed molecular basis of ABAtriggered cell death remains largely unknown. The mammalian target of rapamycin (mTOR), a type of www.cjcrcn.org

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