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Lysosome Interference Enabled by Proton‐Driven Dynamic Assembly of DNA Nanoframeworks inside Cells

Yuhang Dong, Feng Li, Zhaoyue Lv, Shuai Li, Meihe Yuan, Nachuan Song, Jinqiao Liu, Dayong Yang

2022Angewandte Chemie International Edition60 citationsDOI

Abstract

Coupling materials chemistry systems to biological processes is a promising way to rationally modulate lysosomal functions. A proton-driven dynamic assembly of a DNA nanoframework inside cells coupled with the lysosome-mediated endocytosis pathways/lysosomal maturation, gives the rational modulation of lysosomal functions, which we term "lysosome interference". Through lysosome-mediated endocytosis, the DNA nanoframework with acid-responsive semi-i-motif enters the lysosome and assembles into an aggregate in a process triggered by lysosomal acidity. The aggregate is suitable for long-term retention. The consumption of protons resulted in lysosomal acidity reduction and hydrolase activity attenuation, thus hindering the degradation of nucleic acid drugs in the lysosome and improving gene silencing effects. This study shows a new way to achieve lysosome interference by coupling the subcellular microenvironment with a precisely programmable assembly system.

Topics & Concepts

LysosomeInterference (communication)Cell biologyDNANanotechnologyBiophysicsMaterials scienceChemistryComputer scienceBiologyBiochemistryTelecommunicationsEnzymeChannel (broadcasting)Advanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryDNA and Nucleic Acid Chemistry