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Synthesis and Characterization of Click Nucleic Acid Conjugated Polymeric Microparticles for DNA Delivery Applications

核酸 微粒 分散性 化学 DNA 共轭体系 分散聚合 纳米凝胶 聚合 生物物理学 胸腺嘧啶 点击化学 药物输送 组合化学 聚合物 高分子化学 生物化学 化学工程 有机化学 生物 工程类
作者
Alan J. Anderson,Emerson L. Grey,Nicholas J. Bongiardina,Christopher N. Bowman,Stephanie J. Bryant
出处
期刊:Biomacromolecules [American Chemical Society]
卷期号:22 (3): 1127-1136 被引量:6
标识
DOI:10.1021/acs.biomac.0c01563
摘要

Microparticle-mediated nucleic acid delivery is a popular strategy to achieve therapeutic outcomes via antisense gene therapy. However, current methods used to fabricate polymeric microparticles suffer from suboptimal properties such as particle polydispersity and low encapsulation efficiency. Here, a new particulate delivery system based on step-growth thiol-Michael dispersion polymerization is reported in which a low polydispersity microparticle is functionalized with a synthetic nucleic acid mimic, namely, click nucleic acids (CNA). CNA oligomers, exhibiting an average length of approximately four nucleic acid repeat units per chain for both adenine and thymine bases, were successfully conjugated to excess thiols present in the microparticles. Effective DNA loading was obtained by simple mixing, and up to 6 ± 2 pmol of complementary DNA/mg of particle was achieved, depending on the length of DNA used. In addition, DNA loading was orders of magnitude less for noncomplementary sequences and sequences containing an alternating base mismatch. The DNA release properties were evaluated, and it was found that release could be triggered by sudden changes in temperature but was unaffected over a range of pH. Finally, phagocytosis of loaded microparticles was observed by confocal microscopy and corroborated by an increase in cellular metabolic activity up to 90%. Overall, this work suggests that CNA functionalized microparticles could be a promising platform for controlled DNA delivery.

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