Programmable manipulation of oligonucleotide–albumin interaction for elongated circulation time

Abstract Oligonucleotide (ON) therapeutics are emerging as a new generation of medicine with tremendous potential, but their clinical translation is hampered by inferior stability and short circulation time in the human body. Here, we report a general approach to manipulating the interaction between...

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Bibliographic Details
Published in:Nucleic acids research 2022-04, Vol.50 (6), p.3083-3095
Main Authors: Yang, Cai, Zhao, Haitao, Sun, Yang, Wang, Cheng, Geng, Xinyao, Wang, Ruowen, Tang, Lumin, Han, Da, Liu, Jianjun, Tan, Weihong
Format: Article
Language:English
Subjects:
Albumins
Aptamers, Nucleotide - chemistry
Chemical Biology and Nucleic Acid Chemistry
Humans
SELEX Aptamer Technique
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Summary:Abstract Oligonucleotide (ON) therapeutics are emerging as a new generation of medicine with tremendous potential, but their clinical translation is hampered by inferior stability and short circulation time in the human body. Here, we report a general approach to manipulating the interaction between ONs and albumin by modulating hydrophobicity. A series of DNA aptamer derivatives were designed and prepared by programmable synthesis as an ON library with a gradient of hydrophobic base ‘F’. In vitro experiments revealed that the introduction of two F bases at both ends of ONs enhanced the biostability without sacrificing biological activities, while the binding affinity toward albumin was dramatically increased with Kd in the range of 100 nM to 1 μM. In vivo imaging confirmed the immediate formation of the aptamer–albumin complex after the injection, and the circulation time of the aptamer was dramatically elongated owing to the enhanced biostability and retarded renal excretion. The programmable incorporation of the F base provides a general approach to regulating albumin-binding affinity and enhancing the stability of aptamers in vivo, conferring aptamer therapeutics prolonged circulation time to meet clinical requirements.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkac156