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Rationally Screened and Designed ABCG2-Binding Aptamers for Targeting Cancer Stem Cells and Reversing Multidrug Resistance

Yanyan Ma, Zhanchen Guo, Chuanwen Fan, Jingran Chen, Shuxin Xu, Zhen Liu

2022Analytical Chemistry17 citationsDOI

Abstract

The ATP-binding cassette, subfamily G, isoform 2 protein (ABCG2), as an important member of ABC transporters, plays a key role in multidrug resistance (MDR) in cancer and has been widely considered as a marker of cancer stem cells (CSC). Reagents capable of simultaneously targeting ABCG2 and reversing MDR have great clinical application values, but their development is highly challenging. Herein, ABCG2 glycosylated extracellular region-binding aptamers were efficiently screened by a cladded molecularly imprinted polymer (cMIP)-based in vitro screening method and further rationally engineered into cyclic bivalent aptamers. Experiments showed that both the monovalent and cyclic bivalent aptamers could specifically bind ABCG2 and thereby specially target CSC of human colorectal carcinomas (CoCSC), while the latter could effectively reverse MDR in drug-resistant liver cancer cells (HepG2/ADR). Different from currently predominant small molecule inhibitors, the reversal of MDR relied on a different mechanism; the cyclic bivalent aptamers bound the two monomers of ABCG2 dimers simultaneously and thereby blocked the ABCG2-mediated drug-pumping channel, resulting in increased intracellular accumulation of substrate drugs. This study opened a new access to the development of affinity reagents for targeting CSC and reversing MDR, holding great prospects in cancer diagnosis and treatment.

Topics & Concepts

Abcg2AptamerChemistryMultiple drug resistanceCancer stem cellCancer cellDrug resistanceCancer researchPharmacologyTransporterBiochemistryATP-binding cassette transporterCancerCell biologyMolecular biologyStem cellBiologyAntibioticsGeneMicrobiologyGeneticsDrug Transport and Resistance MechanismsAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery