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Luminescent Gold Nanoparticles with Discrete DNA Valences for Precisely Controlled Transport at the Subcellular Level

Wenyan Nie, Kui He, Zhipeng Zhao, Xiaoxi Luo, Jinbin Liu

2023Angewandte Chemie International Edition13 citationsDOI

Abstract

Ultrasmall luminescent gold nanoparticles (AuNPs) with excellent capabilities to cross biological barriers offer great promise in designing intelligent model nanomedicines for investigating structure-property relationships at the subcellular level. However, the strict surface controllability of ultrasmall AuNPs is challenging because of their small size. Herein, we report a facile in situ method for precisely controlling DNA aptamer valences on the surface of luminescent AuNPs with emission in the second near-infrared window using a phosphorothioate-modified DNA aptamer, AS1411, as a template. The discrete DNA aptamer number of AS1411-functionalized AuNPs (AS1411-AuNPs, ≈1.8 nm) with emission at 1030 nm was controlled in one aptamer (V1), two aptamers (V2), and four aptamers (V4). It was then discovered that not only the tumor-targeting efficiencies but also the subcellular transport of AS1411-AuNPs were precisely dependent on valences. A slight increase in valence from V1 to V2 increased tumor-targeting efficiencies and resulted in higher nucleus accumulation, whereas a further increase in valence (e.g., V4) significantly increased tumor-targeting efficiencies and led to higher cytomembrane accumulation. These results provide a basis for the strict surface control of nanomedicines in the precise regulation of in vivo transport at the subcellular level and their translation into clinical practice in the future.

Topics & Concepts

AptamerNanotechnologyColloidal goldLuminescenceDNANanoparticleSubcellular localizationMaterials scienceBiophysicsControllabilityValence (chemistry)ChemistryBiologyOptoelectronicsBiochemistryMolecular biologyCytoplasmApplied mathematicsOrganic chemistryMathematicsAdvanced biosensing and bioanalysis techniquesNanocluster Synthesis and ApplicationsGold and Silver Nanoparticles Synthesis and Applications
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