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An aptamer-based, fluorescent and radionuclide dual-modality probe

Gui-Xiong Zhang, Yanlan Liu, Min Yang, Wen-Shan Huang, Jiehua Xu

2020Biochimie20 citationsDOIOpen Access PDF

Abstract

Aptamers which are promising and effective molecular probes, can deliver either fluorescent materials or radionuclides to tumors. This study aimed to develop a novel both fluorescent and radionuclide dual-modality probe based on a truncated aptamer and evaluate its stability and binding affinities in vitro. The aptamer JHIT2 with binding specifically to HepG2 cells was previously generated by Cell-SELEX. Using mfold and RNAstructure software to predict the secondary structure folded by a middle random sequence to truncate the primer sequences at both ends of the aptamer JHIT2 to yield the aptamer JHIT2e, with a similar secondary structure to JHIT2 and the same specificity and affinity as JHIT2. Attaching carboxyfluorescein (FAM) readily to the aptamer JHIT2e and then attaching iodine-131 to the FAM moiety which has multiple sites for iodine labeling to develop a novel both fluorescent and radionuclide dual-modality probe, termed 131I-FAM-JHIT2e. Cell uptake and fluorescence imaging assays in vitro confirmed that 131I-FAM-JHIT2e had both FAM fluorescence signal and radio-activity signal and maintained specific binding ability to the human hepatoma cell line HepG2. This work formed a basis for aptamer-based, dual-modality imaging probe that contains both fluorescent and radionuclide tags, which also is potential for theranostics.

Topics & Concepts

AptamerFluorescenceChemistrySystematic evolution of ligands by exponential enrichmentBiophysicsMolecular probeMolecular imagingIn vitroFluorescence-lifetime imaging microscopyBiochemistryMolecular biologyRNADNAIn vivoBiologyGeneticsPhysicsQuantum mechanicsGeneAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryRNA and protein synthesis mechanisms